Dermatology: Practical and Conceptual


Review  |  Dermatol Pract Concept 2021;11(1):e2021126 1

Dermatology Practical & Conceptual

Reappraising Elements of the Aseptic Technique 
in Dermatology: A Review

Samiya Khan1, Terri Shih2, Shawn Shih3, Amor Khachemoune4,5

1 Long School of Medicine, University of Texas Health Science Center at San Antonio, TX, USA 

2 David Geffen School of Medicine at University of California, Los Angeles, CA, USA

3 University of Central Florida College of Medicine, Orlando, FL, USA

4 Veterans Affairs Medical Center, Brooklyn, NY, USA

5 Department of Dermatology, SUNY Downstate, Brooklyn, NY, USA

Key words: gloves, sterilization, wound infection, Mohs surgery, skin neoplasms

Citation: Khan S, Shih T, Shih S, Khachemoune A. Reappraising elements of the aseptic technique in dermatology: a review. Dermatol Pract 
Concept. 2021;11(1):e2021126. DOI: https://doi.org/10.5826/dpc.1101a126

Accepted: August 7, 2020; Published: January 29, 2021

Copyright: ©2021 Khan et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License BY-
NC-4.0, which permits unrestricted noncommercial 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.

Authorship: All authors have contributed significantly to this publication.

Corresponding author:  Amor Khachemoune MD, FAAD, FACMS, 800 Poly Place, Dermatology Service, Brooklyn, NY, 11209 USA.  
Email: amorkh@gmail.com

Dermatologic procedures are performed under varying degrees of antisepsis, and no clear guidelines 
exist regarding the role of the aseptic technique in dermatology. This review aims to clarify the ter-
minology surrounding surgical asepsis and examines the importance of various components of the 
aseptic technique in cutaneous surgery. Included are studies examining optimal glove type, surgical in-
struments, skin antisepsis, and cost-reducing protocols. Our review highlights that most dermatology 
procedures are not performed under completely sterile conditions due to the lack of environmental 
and foot traffic controls in dermatology offices. In addition, for some outpatient procedures, such as 
for minor excisions and Mohs surgery before reconstruction, elements of the clean technique can be 
used without increasing infection rates. However, data on the feasibility of a clean protocol for Mohs 
reconstruction is conflicting. Future prospective, randomized trials analyzing various components of 
the aseptic technique in dermatology are greatly needed so that guidelines can be established for prac-
ticing dermatologists. 

AbstrACt

Introduction

Over the years, dermatologic surgical procedures have 

increased. Those performed in outpatient settings allow 

the dermatologist to provide more cost-effective treatment 

options for patients than procedures performed in hospital 

settings [1]. In fact, a survey performed by the American 

Society for Dermatologic Surgery showed that dermatologists 



2 Review  |  Dermatol Pract Concept 2021;11(1):e2021126

 performed 12.5 million procedures in 2018, a 60% increase 

since 2012 [2]. Despite the high volume of procedures per-

formed by dermatologists, no standard guidelines exist 

regarding the extent of antisepsis required for these proce-

dures. We aim to conduct a comprehensive literature review 

to elucidate our understanding of the role and necessity of the 

aseptic technique in dermatology practice. 

Discussion

reviewing the terminology

Multiple terms that describe varying degrees of sterility 

during medical procedures exist. Terms such as “aseptic” 

and “sterile” are often used interchangeably, and multiple 

definitions are available. The following definitions are based 

on the descriptions provided by the Aseptic Non-Touch Tech-

nique Framework, a clinical practice standard developed by 

Rowley in the United Kingdom in the 1990s and currently 

implemented in more than 25 countries [3].

Clean: Free from visible marks and stains. 

Aseptic: Free from pathogenic organisms in numbers 

needed to cause infection.

sterile: Free from all microorganisms.

In addition, according to the Joint Commission, the clean 

and aseptic techniques are differentiated based on 4 primary 

factors (Table 1) [4].

Clean technique:

•	 Barrier: Appropriate hand hygiene, clean gloves.

•	 Patient and environmental preparation: efforts to prevent 

direct contamination.

•	 Environmental controls: routine cleaning of patient’s 

environment.

•	 Contact: sterile to sterile contact is not a consideration. 

Aseptic technique: 

•	 Barrier: sterile gloves, sterile drapes, and sterile masks to 

prevent the transfer of microorganisms from the environ-

ment to the patient.  

•	 Patient and equipment preparation: antiseptic skin prepa-

ration of patient at time of procedure, sterile instruments, 

sterile equipment, sterile devices.

•	 Environmental controls: close doors during procedures, 

minimize traffic into and out of operating rooms, exclude 

unnecessary personnel during procedures.

•	 Contact: only sterile-to-sterile contact is allowed. 

Historically the term sterile technique has been used inter-

changeably with aseptic technique. However, a true sterile 

technique is impossible to achieve in most healthcare settings 

due to the presence of airborne organisms [3]. 

the Dermatology Office Environment 

The practice of antisepsis in the surgical operating room 

involves the adoption of strict sterile techniques. Multiple, 

extensive guidelines have been published regarding proper 

sterile technique during surgery. While exact practices may 

vary at each institution, sterile technique in an operating room 

generally includes environmental cleaning, hand hygiene, 

preoperative skin preparation, sterile surgical attire, and 

maintaining a sterile surgical field. In addition, the operating 

room must also have high-efficiency particulate air filters and 

directional airflow to minimize airborne infection [5].

In contrast to the traditional operating room, derma-

tology offices do not have strict requirements on the use of 

sterile technique during dermatologic surgeries, and without 

ventilatory systems, achieving a truly sterile environment is 

impossible in dermatology offices. With a shortage of scien-

tific data, dermatologists must personally decide for them-

selves the degree of sterility they would like to practice during 

procedures. As a result, aseptic techniques vary. A survey 

regarding perioperative antiseptic practices among members 

of the American College of Mohs Surgery showed that many 

traditional aseptic techniques are not used among derma-

tologists. For example, only 35% of respondents reported 

utilizing a preoperative hand scrub before Mohs Surgery [6].

When aseptic techniques are employed, they are generally 

used for excisional surgeries, flaps, grafts, and Mohs repairs 

[7]. Asepsis for these procedures is different than general 

Table 1. Definition of terms 

Term Definition Current Use in Dermatology

Clean technique •	Maintaining an environment that is free from marks and stains 
•	Includes hand hygiene, clean gloves, efforts to prevent 

contamination, and routine cleaning

•	Punch biopsy
•	Shave biopsy
•	Mohs surgery 

Aseptic technique •	Maintaining an environment that prevents infection 
•	Includes the use of sterile attire, sterile equipment, antiseptic 

skin preparations, and environmental controls. Only sterile to 
sterile contact is allowed. 

•	Excisions
•	Flaps and grafts
•	Mohs repairs



Review  |  Dermatol Pract Concept 2021;11(1):e2021126 3

surgery, however, because while sterile materials and gloves 

are used, there is no regulation in regard to foot traffic, air-

flow, or surgical scrub.  Smaller procedures, such as shave 

or punch biopsies and curettage, use the clean technique. 

In addition, Mohs micrographic surgery (MMS) is typically 

considered a clean procedure rather than a sterile procedure 

because patients move between procedure and waiting rooms, 

covering their wound with a nonsterile bandage [8]. Despite 

the low incidence of strict aseptic technique use among der-

matologists, the rate of surgical site infections in dermatologic 

surgery remain incredibly low (0.07% to 5%) [8].

surgical Gloves

A major area of investigation regarding aseptic practices in 

dermatology has been centered on the use of sterile vs clean 

gloves during dermatologic procedures (Table 2). In 2006, 

Rhinehart et al. published the first study examining this issue, 

conducting a retrospective chart review of 1,239 patients who 

underwent MMS by one of 2 surgeons. Rhinehart and his col-

leagues observed no statistically significant difference in sur-

gical site infection (SSI) rates between sterile and clean gloves 

for MMS before reconstruction when controlling for the 

surgeon who performed the surgery and other components 

of the perioperative aseptic technique. For example, both the 

clean and sterile glove groups utilized identical antiseptic skin 

preparations, handwashing protocols, and sterile linens. In 

addition, if a surgical assistant was present, he or she utilized 

the same type of gloves as the primary surgeon [9]. Other 

prospective studies have similarly found clean gloves to be 

noninferior to sterile gloves in preventing infections [10-13]. 

A recently conducted systematic review of SSI rates with 

sterile vs clean gloves in both cutaneous and dental proce-

dures found the same finding even when controlling for only 

dermatologic procedures through a subgroup of patients 

undergoing Mohs Surgery [14]. Another study, a prospective 

trial examining 3,491 dermatologic surgical procedures 

conducted by Rogues et al in 2007, found a lower rate of 

surgical site infections with sterile glove use than when sterile 

gloves were not used (14.7% vs 3.7%) [15]. However, this 

pattern was only found for reconstructive procedures such 

as flaps and grafts and not simple excisions. Moreover, the 

high rate of infection seen in this study is atypical for most 

dermatologic procedures and may be due to the inclusion of 

both hospital and outpatient procedures in this study. Based 

on Rogue’s analysis, it is also difficult to discern whether 

no gloves or nonsterile gloves were used as a control in the 

investigation.  

Taken together, most studies show no significant dif-

ference in infection rates between sterile and clean gloves 

for simple outpatient dermatologic procedures. In fact, the 

bacterial load found on clean gloves has been found to be 

inadequate to cause infection [16]. On the other hand, more 

complex excisions and reconstructions may benefit from 

the use of sterile gloves; although, more prospective studies 

examining sterile vs clean-glove use in more complex exci-

sions is needed. 

surgical Instruments and Materials

The sterilization of surgical instruments is another compo-

nent of the perioperative aseptic technique that helps reduce 

the potential of spreading infection. A few studies have been 

conducted regarding surgical instrument sterilization in der-

matology offices. Nasseri and colleagues, for example, found 

that among 338 patients undergoing MMS, using a single 

Table 2. Summary of Studies Comparing Sterile vs Nonsterile Glove Use in Dermatology 

Author Study Type Findings

Rhinehart et al [9] (2006) Retrospective •	No difference in SSI rate between nonsterile or sterile 
gloves

Rogues et al [15] (2007) Prospective observational •	Lower rate of SSI with the use of sterile gloves compared to 
nonsterile gloves during reconstructive procedures 

•	No difference in SSI rate between nonsterile and sterile 
gloves for simple excisions 

Xia et al [10] (2011) Prospective randomized •	No difference in SSI rate between nonsterile or sterile 
gloves

Mehta et al [11] (2014) Prospective •	No difference in SSI rate between nonsterile and sterile 
gloves

Brewer et al [14] (2016) Systematic review/ 
meta-analysis

•	No difference in SSI rate between nonsterile and sterile 
gloves (including when looking at Mohs micrographic 
surgery subtype)

Michener et al [12] (2019) Prospective randomized •	No difference in SSI rate between nonsterile and sterile 
gloves

Kemp et al [13] (2019) Retrospective •	SSI rate was 3.02% with sterile glove and 4.17% with 
NSG 



4 Review  |  Dermatol Pract Concept 2021;11(1):e2021126

set of sterile instruments for both the tumor extirpation and 

repair stages of MMS resulted in an acceptably low incidence 

of surgical site infections and increased cost savings [8]. 

Findings by Liu and colleagues further elucidate the role 

of the aseptic technique in dermatology by showing that new 

non-evidence-based guidelines proposed by the Joint Com-

mission on the Accreditation of Health Care Organizations 

on the sterilization of instruments in outpatient procedures 

did not reduce the incidence of infection after dermatologic 

surgery [17]. The guidelines mandated that each item be 

sorted and sterilized individually but only when producer 

instructions were available. This increased the average time 

to set up a tray for each stage of the procedure, but provided 

no overall benefit, highlighting that evidence-based recom-

mendations are still needed in this realm [17]. Some studies 

have looked at SSI rates after the use of multiple sterile 

instruments and materials rather than gloves in isolation. A 

prospective study by Rogers and colleagues in 2010 found 

that the use of a clean surgical technique (consisting of clean 

gloves, clean draping, and a reusable sterile set of instruments) 

in 1,000 patients for all stages of Mohs surgery (including 

reconstruction) led to a low rate of infection of 0.91% [18].  

However, no control group was used in the study. A study 

published by Martin and colleagues, also in 2010, reported 

that heightened infection control practices reduced the rate of 

SSI in a statistically significant manner from 2.5% to 0.9% 

for 950 Mohs surgeries. The heightened aseptic regimen 

included jewelry restriction, alcohol hand scrub before each 

stage, and sterile gloves, gowns, towels, and dressings, which 

correspond to parts of the aseptic technique [19]. A follow-up 

study published in 2012 compared the SSI rates between 2 

low- and high-cost infection control practices and found that 

the less expensive measures that omitted sterile gloves, sterile 

gowns, and sterile drapes did not change infection risk in 

Mohs surgery [20]. Based on these studies it is possible that 

lower cost, less sterile protocols could be implemented with-

out compromising safety, but more specific recommendations 

and conclusive evidence is needed. 

skin Antiseptics 

Antiseptic scrubs are used in the aseptic technique to pre-

pare the skin before surgery to remove transient bacteria 

while minimizing the remaining resident flora. Currently, no 

definitive guideline exists for antiseptic use in dermatologic 

surgery, although multiple options such as isopropyl alcohol, 

povidone, and chlorhexidine exist. Studies on antiseptic use 

in dermatology are limited, although a study by Alam and 

colleagues found that preoperative chlorhexidine use cor-

relates with a lower postoperative infection risk in MMS [21]. 

However, the estimated absolute risk reduction was shown to 

between 0.45% and 0.53% and therefore exceptionally small 

[21]. Among studies outside the field of dermatology, a recent 

systematic review and meta-analysis of 19 studies concluded 

that chlorhexidine is associated with fewer positive skin 

infections compared to iodophors, such as povidone iodine 

and iodine povacrylex [22].

With limited data, dermatologists must use specific attrib-

utes relating to the various antiseptics to guide product usage. 

For example, povidone iodine is not recommended in those 

with an allergy to iodine, and alcohols should be avoided in 

wet areas of the skin due to flammability [23]. Moreover, 

solutions containing chlorhexidine and alcohol-containing 

agents should not be used on the face due to the potential for 

serious eye injury. For example, chlorhexidine use has been 

associated with irreversible keratitis leading to blindness and 

ototoxicity. Therefore, for head and neck procedures, one 

should consider povidone iodine or chloroxylenol for surgical 

site prep and chlorohexidine for more distant sites due to its 

superior length of activity [24]. 

surgical Face Masks, Caps, Gowns, and shoes

Studies specific to the importance of surgical face masks, 

caps, gowns, and shoe covers—key components of the aseptic 

technique—are lacking. A review examining attire published 

by Eisen in 2011 concludes that no evidence exists to prefer 

one form of attire over another in dermatologic surgery and 

that the use of masks, head coverings, operating room shoes, 

and shoe covers have not been shown to avert surgical site 

infections [25]. For example, Cochrane Systematic Review 

from 2016 found no evidence that face masks reduced the 

rate of SSIs during clean surgery, but the limited number of 

studies in the review makes it unsafe to draw any definite 

conclusions [26]. In addition, evidence on the utility of gowns 

seems to be conflicting, and earlier studies analyzing bacterial 

load in gowns may be irrelevant due to the vastly improved 

gown materials of today [27]. Regarding more commonly 

worn outpatient attire, a systematic review by Goyal and 

colleagues, which included 22 studies pertaining to microbial 

contamination, found providers’ white coats and scrubs asso-

ciated with multidrug resistant organisms, with white coats 

having a higher degree of contamination due to less frequent 

laundering [28]. Therefore, the authors suggest that white 

coats should be laundered at least weekly and scrubs should 

be changed daily. While these are general suggestions, appro-

priate guidelines should be established within dermatology 

based on the type of patient-physician encounter.  

Handwashing

Handwashing is an important component of both the clean 

and aseptic technique and, in the mid 1970s, was recognized 

as “the most important procedure in preventing nosocomial 

infections” by the US Center for Disease Control and Pre-

vention (CDC) and was included in the CDC guidelines by 

the 1980s [29]. In the field of dermatology, the practice of 



Review  |  Dermatol Pract Concept 2021;11(1):e2021126 5

proper hand hygiene is of particular concern because patient-

depressed barrier function, associated with a variety of skin 

diseases, makes them more susceptible to infectious disease. 

In addition, the skin of dermatologists or their assistants can 

be easily contaminated. A study sampling 13 dermatologists 

found all physicians’ hands to be contaminated with micro-

bial pathogens, with one hand contaminated by MRSA [30]. 

In the same study, compliance with handwashing was found 

to be only 31.4%. 

Presently, the CDC recommends alcohol-based sanitation 

to be used predominantly, although handwashing with soap 

and water is preferred before eating, after using the restroom, 

when hands are visibly soiled, and when Clostridium difficile 

exposure is suspected [31,32]. A strict surgical hand scrub 

that generally includes cleaning one’s hands up to the forearm 

with a brush has not been tested in dermatology, and such 

a protocol is likely unnecessary in the dermatology practice. 

Nevertheless, hand antisepsis should be performed before and 

after patient contact. 

Conclusions

reappraisal of sterile Procedures  
in Dermatology 

The aseptic technique involves the creation of a sterile field 

and preservation of this sterility throughout the procedure. 

Due to a lack of guidelines, the degree of asepsis practiced 

by dermatologist varies by procedure. More complex and 

invasive procedures, such as Mohs reconstruction or lipo-

suction, increase the necessity for surgical asepsis. In reality, 

dermatologists employ a “modified aseptic” technique when 

performing these procedures, as complete sterility is impos-

sible to achieve in most dermatology offices. For example, 

using a single pair of sterile gloves or even a new, sterilized 

tray does not ensure complete asepsis because the surgical 

staff may not be wearing sterile attire while interacting with 

the patient or surgical materials. In addition, most dermatol-

ogy offices see frequent foot traffic from patients and family 

members without regulations for when procedure room doors 

should be closed, and this further reduces the sterility of the 

environment. 

Taken together, aseptic practices in dermatology vary. 

There is moderate evidence to show that the use of clean 

gloves may be justified in the setting of simple dermatologic 

procedures. However, this justification may not apply to 

more advanced dermatologic surgeries. A few studies have 

also shown that various cost-reducing practices, such as using 

a single set of sterile instruments or a clean surgical technique 

does not harm surgical site infection rates in dermatology. 

More studies are needed regarding the utility of surgical 

attire such as face masks, caps, and gowns in dermatology. 

Proper hand hygiene should, in general, always be used for 

both clean and aseptic procedures. While it is difficult to 

isolate one variable due to many possible factors leading to 

post-surgical infections, rigorous, well-designed randomized 

controlled trials are needed to help establish guidelines for 

the scope of asepsis required for various types of dermato-

logic surgery. 

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