Dermatology: Practical and Conceptual


Research Letter | Dermatol Pract Concept. 2022;12(3):e2022098 1

Butterfly Sign in Scabies: Towards  
an Evolutionary Process?

Teresa Oranges1, Fausto Andrea Pedaci2, Cesare Filippeschi1

1 Dermatology Unit, Department of Pediatrics, Meyer Children's Hospital, Florence, Italy.

2 Department of Health Sciences, Meyer Children’s Hospital, Florence, Italy.

Key words: scabies, sarcoptes scabiei hominis, dermoscopy, dermatoscopy, resistance

Citation: Oranges T, Pedaci FA, Filippeschi C. Butterfly sign in scabies: towards an evolutionary process?  
Dermatol Pract Concept. 2022;12(3):e2022098. DOI: https://doi.org/10.5826/dpc.1203a98

Accepted: October 25, 2021; Published: July 2022

Copyright: ©2022 Oranges et al. This is an open-access article distributed under the terms of the Creative Commons Attribution 
License (BY-NC-4.0), https://creativecommons.org/licenses/by-nc/4.0/ which permits unrestricted noncommercial use, distribution, and 
reproduction in any medium, provided the original authors and source are credited.

Funding: None.

Competing interests: None.

Authorship: All authors have contributed significantly to this publication.

Corresponding author: Teresa Oranges, MD, PhD, Department of Pediatrics, Dermatology Unit, Meyer Children's Hospital, Viale Gaetano 
Pieraccini 24, 50139, Florence, Italy Tel +39 0555662944 E-mail: teresa.oranges@gmail.com

Dermatology Practical & Conceptual

Introduction

Human scabies is a worldwide skin infestation caused 

by the mite Sarcoptes scabiei  hominis and remains a sig-

nificant public health concern. The detection of the mite 

is essential for diagnosis and entodermoscopy strongly  

improves diagnostic reliability. The mite is visible on der-

moscopy at the head of the burrow, due to its refractile 

area located between the buccal apparatus and the second 

pair of legs. This sign is called “triangle” sign or “delta 

glider” sign, or “hang glider” sign (Figure 1A, asterisk) 

[1]. The “triangle” sign is usually accompanied by reflect-

ing bubbles along the tunnel called “jet trail” sign on wet 

dermoscopy (Figure 1A, arrow) [1]. Other less frequently 

observed dermoscopic signs have been described and one 

of the most recently described feature is the “gray-edge 

line” sign, that it’s due to the presence of mite feces con-

taining melanin (Figure 1A, arrowhead) [1]. We present 

a new dermoscopic sign observed in 2 cases, in the era 

of progressive resistance of Sarcoptes scabiei hominis to 

standard treatments.

Figure 1. (A) Dermoscopy of a scabies burrow showing the “delta 

glider” sign (asterisk), reflective bubbles within the burrow referred 

to as “jet trail” sign (arrow) and blackish-gray lines at some points 

of the burrow walls consistent to the “gray-edge line” sign (arrow-

head). (B) Microscopic examination of a Sarcoptes scabiei hominis 

with classical features: the gut area appears poorly demarcated and 

of the same color of the adjacent structures (arrow).



2 Research Letter | Dermatol Pract Concept. 2022;12(3):e2022098

Figure 2. Dermoscopic evaluation of a scabies burrow of the 5-years old patient (A) and of the 10-years old patient (C) with the 

corresponding microscopic appearance of the scraped mites (B and D). (A-C) Both dermoscopic images show the “delta glider” sign 

(asterisks) and the presence, just below, of a reddish structure corresponding to the “butterfly” sign (arrows). (B-D) Microscopic 

features of the anterior part of the mite body (asterisks) and of the underlying gut area which appear well demarcated and reddish 

in color (arrows).

Case presentation

We observed 2 cases of young patients (a 10-year-old male 

and a 5-year-old male) referred to the dermatologic unit for 

scabies present for several months, treated with multiple cy-

cles of permethrin 5% cream. Physical examination revealed 

persistent multiple mite burrows with classic dermoscopic 

image of “delta glider” sign (Figure 2, A-C, asterisk), cor-

responding to the anterior part of the mite (Figure 2,  

B-D, asterisk), associated with a new dermoscopic sign, 

which we called the “butterfly” sign, characterized by a 

butterfly-shaped reddish area just below the “delta glider” 

sign (Figure 2, A-C, arrow). The microscopic examination 

of the scraped skin in correspondence to the burrow showed 

in both patients the presence of the mite with a well-defined 

butterfly-shaped gut area, with a reddish coloration resem-

bling blood (Figure 2, B-D, arrow). Of note, the gut area of 

the Sarcoptes scabiei hominis mite is usually not so clearly 

visible under the microscope (Figure 1B, arrow).

Conclusions

Recently, several authors described the emerging phenome-

non of resistance of mites to standard treatments, in particular 



Research Letter | Dermatol Pract Concept. 2022;12(3):e2022098 3

to permethrin, as in our cases [2]. Considering these recent 

evidences, this report suggests a new dermoscopic sign as a 

possible marker of Sarcoptes scabiei hominis evolution.

References

1. Ueda T, Katsura Y, Sasaki A, Minagawa D, Amoh Y, Shirai K. 

Gray-edged line sign of scabies burrow. J Dermatol. 2021;48(2): 

190-198. DOI: https://doi.org/10.1111/1346-8138.15650. PMID: 

33063894.

2. Mazzatenta C, Piccolo V, Argenziano G, Bassi A. Is Scabies be-

coming less sensitive to permethrin therapy? J Eur Acad Derma-

tol Venereol. 2021;35(9):e607-e609. DOI: 10.1111/jdv.17339. 

PMID: 33974300.