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Face masks hurting your ears? These easy solutions can help
In this period of the Covid-19 pandemic, a protective mask has become a common object of use to contain virus transmission. The imminent need for masks has led many governments to
produce them, including surgical masks with mask earloop or masks with side cuts at the ears. Among those on the market, surgical masks with
elastic loops are the ones most chosen by parents for their children. These elastics cause constant compression on the skin and, consequently, on the cartilage of the auricle, leading to
erythematous and painful lesions of the retroauricular skin when the masks are used for many hours a day. Pre-adolescent children have undeveloped auricular cartilage with less resistance
to deformation; prolonged pressure from the elastic loops of the mask at the hollow or, even worse, at the anthelix level can influence the correct growth and angulation of the outer ear.
In fact, unlike when using conservative methods for the treatment of protruding ears, this prolonged pressure can increase the cephaloauricular angle of the outer auricle. It is important
for the authorities supplying the masks to be aware of this potential risk and for alternative solutions to be found while maintaining the possibility of legitimate prevention of the
potential spread of the virus.
We read with interest the article by Ors [1] on prominent ear deformities and its recurrence rate. This article gives us the opportunity to better understand the effectiveness of
nonsurgical options for the treatment of ear anomalies in young patients (5–14 years).
The current COVID-19 pandemic has imposed the worldwide use of masks in addition to social distancing. The use of masks applies to everyone, even children, certainly if over the age of
5–6 years.
The masks distributed to the population by government bodies are of various types, both as regards to their shape and the systems for fastening them to the head, but, basically, they
are divided into 4 large categories: masks with elastic (ear loops), strips of fabric with lateral slits (side cuts at the ears), with tapes, single cervical band.
Small children are rarely made to wear the masks with tapes, due to the difficulty in positioning and tying the tapes.
The “single band” masks that wrap around the neck have the drawback of sliding downwards and, therefore, not keeping the nose covered; furthermore, if used during the summer season,
they tend to produce a humid microenvironment that favours the development of dermatitis and eczema.
Many adults (health care workers and others) complain about discomfort associated with round elastic earloop, due
to the continuous pressure of the elastic behind the ear. Several methods have been proposed to overcome this problem: from the use of hairpins to hang the elastic bands from the forehead
to the use of various types of bands that pass behind the back of the neck and to which the loops of the mask are attached. However, these methods used by adults are not used by children,
resulting in constant pressure of the elastic on the skin of the posterior portion of the auricle.
All bodies subject to the action of a force undergo deformation, which depends not only on the intensity of the force applied, but also on the nature of the body itself. In general,
deformations can be of two types: elastic, which disappear when the force is no longer applied, and non-elastic, which remain even after applying the force. Cartilage has memory thanks to
the presence of elastic fibres; although this allows it to return to its initial condition when deformed, if the stimulus persists, it can lead to permanent changes in its conformation.
This principle has been used for many years for the conservative correction of protruding ears [1, 2]. Obviously, in order to use these non-surgical correction techniques (e.g. bands,
patches, ear splint therapy) with benefit, the development of the various components of the ear must not be completed. This can happen if applied in children who are less than 8–10 years
old, because after that age the cranial volume, with its appendages, almost completely reaches total growth [3]. The literature reports important successes in the treatment of protruding
ears with conservative methods, with a success rate that shows a decline from 91% in infants to 33% in 9-year-old children [1, 2, 4].
The main advantage of this treatment is that it keeps the splint in position for a long time, so that it can exert constant pressure on the growing cartilage, changing it into the
desired shape.
The success of these conservative methods confirms that a constant pressure maintained for a long time on the cartilage of the ear of growing children can change the shape and increase
the cephaloauricular angle of the outer auricle.
Griffin et al. have demonstrated that the cartilage of the auricle has a homogeneous structure, although the concha has a greater resistance to deformation than the helix [5]. This
resistance is comparable to that of nasal cartilage (about 200 times lower than the resistance of Medpor prostheses used for ear reconstruction). The concha had a greater rate of loading
than the antihelix when taking into consideration the anatomical structure of the cartilages. One reason for this difference may be that the concha is a curved structure, which can support
compressive loads [5]. Therefore, if a constant elastic force were applied at the level of the concha, it would be less harmful than if applied at the antihelix level.
It is well known that the pressure of the mask elastic on the skin of the posterior concha of the auricle for a long time causes pain
and erythema, due to the continuous rubbing of the elastic on the skin in the same position. This has led some users to apply silicone rear ear supports that decrease decubitus, but
increase the distance of the auricle from the mastoid region. Others, on the other hand, prefer to change the position of the elastic by moving it more towards the antihelix than the
mastoid region, thus applying an elastic force in an area where the cartilage has less resistance, with a consequent increase in the cephaloauricular angle of the outer auricle.
Therefore, the use of surgical masks with flat elastic earloop in growing children for many hours a day not only
leads to intolerance and decubitus of the retroauricular skin (as for adults), but can also influence the correct growth and angulation of the outer ear with the consequent increase in the
incidence of protrusion of the outer auricle (Fig. 2a and b).
One alternative to the surgical mask is the earmuffs mask (in which the ears are completely wrapped, held in place by mask
elastic cord at the back of the ear) or the band mask with lateral slits at the ears: also these models, due to their conformation, tend to create a constant pressure on the
antihelix, increasing the auriculocephalic angle (Fig. 2c).
Many scientific societies of paediatrics and pedagogy have raised doubts about the risks that this situation of forced constriction by Covid-19 can cause on the normal psychophysical
development of children; however, it has never been pointed out how the use of surgical masks with ear loops can be harmful to the correct development of the auricle by permanently
modifying the cartilage of the concha in growing children.
We are confident that highlighting this potential complication to those involved in the procurement of masks will stimulate the search for alternative solutions, while maintaining the
possibility of legitimate prevention of the potential spread of the virus.
Face masks are an essential part of protecting yourself and others from coronavirus, but that doesn't make them any easier to wear. Over the past few weeks, we've realized
firsthand how masks can wreak all sorts of havoc on our skin. Now many of us are dealing with another unfortunate side effect: discomfort on our ears.
Those loops that keep your mask in place can put a lot of pressure on your ears and aggravate your skin, but there are a few ways to prevent that. From skin care tips to face mask ear
savers, these are the tricks experts swear by.
The majority of us only wear a mask on Halloween as temporary props we can take off at any time. But now that we're wearing masks out in public on a regular basis, we're quickly
realizing that they can be uncomfortable.
"Moisture and friction can cause irritation, as prolonged mask use can irritate sensitive skin. Some masks are tied around the head, and some are fastened by loops that go over and
around the ears, so the ears can (be) irritated as well," said Dr. David Lortscher, board-certified dermatologist and CEO of skin care brand Curology.
Irritation can show up in many forms, including bruising, raw skin or increased acne and breakouts.
When face mask straps rub against your ears, they create friction that can result in inflammation in the outer skin layer and blistering.
"This can cause open wounds or scabbing of the skin, which increases your risk of developing an infection. Plus it makes it a challenge to apply a mask again over those
areas," said Dr. Joshua Zeichner, board-certified dermatologist and director of cosmetic and clinical research at Mount Sinai Hospital's department of dermatology.
In this period of the Covid-19 pandemic, a protective mask has become a common object of use to contain virus transmission. The imminent need for masks has led many governments to
produce them, including surgical masks with mask earloop or masks with side cuts at the ears. Among those on the market, surgical masks with
elastic loops are the ones most chosen by parents for their children. These elastics cause constant compression on the skin and, consequently, on the cartilage of the auricle, leading to
erythematous and painful lesions of the retroauricular skin when the masks are used for many hours a day. Pre-adolescent children have undeveloped auricular cartilage with less resistance
to deformation; prolonged pressure from the elastic loops of the mask at the hollow or, even worse, at the anthelix level can influence the correct growth and angulation of the outer ear.
In fact, unlike when using conservative methods for the treatment of protruding ears, this prolonged pressure can increase the cephaloauricular angle of the outer auricle. It is important
for the authorities supplying the masks to be aware of this potential risk and for alternative solutions to be found while maintaining the possibility of legitimate prevention of the
potential spread of the virus.
We read with interest the article by Ors [1] on prominent ear deformities and its recurrence rate. This article gives us the opportunity to better understand the effectiveness of
nonsurgical options for the treatment of ear anomalies in young patients (5–14 years).
The current COVID-19 pandemic has imposed the worldwide use of masks in addition to social distancing. The use of masks applies to everyone, even children, certainly if over the age of
5–6 years.
The masks distributed to the population by government bodies are of various types, both as regards to their shape and the systems for fastening them to the head, but, basically, they
are divided into 4 large categories: masks with elastic (ear loops), strips of fabric with lateral slits (side cuts at the ears), with tapes, single cervical band.
Small children are rarely made to wear the masks with tapes, due to the difficulty in positioning and tying the tapes.
The “single band” masks that wrap around the neck have the drawback of sliding downwards and, therefore, not keeping the nose covered; furthermore, if used during the summer season,
they tend to produce a humid microenvironment that favours the development of dermatitis and eczema.
Many adults (health care workers and others) complain about discomfort associated with round elastic earloop, due
to the continuous pressure of the elastic behind the ear. Several methods have been proposed to overcome this problem: from the use of hairpins to hang the elastic bands from the forehead
to the use of various types of bands that pass behind the back of the neck and to which the loops of the mask are attached. However, these methods used by adults are not used by children,
resulting in constant pressure of the elastic on the skin of the posterior portion of the auricle.
All bodies subject to the action of a force undergo deformation, which depends not only on the intensity of the force applied, but also on the nature of the body itself. In general,
deformations can be of two types: elastic, which disappear when the force is no longer applied, and non-elastic, which remain even after applying the force. Cartilage has memory thanks to
the presence of elastic fibres; although this allows it to return to its initial condition when deformed, if the stimulus persists, it can lead to permanent changes in its conformation.
This principle has been used for many years for the conservative correction of protruding ears [1, 2]. Obviously, in order to use these non-surgical correction techniques (e.g. bands,
patches, ear splint therapy) with benefit, the development of the various components of the ear must not be completed. This can happen if applied in children who are less than 8–10 years
old, because after that age the cranial volume, with its appendages, almost completely reaches total growth [3]. The literature reports important successes in the treatment of protruding
ears with conservative methods, with a success rate that shows a decline from 91% in infants to 33% in 9-year-old children [1, 2, 4].
The main advantage of this treatment is that it keeps the splint in position for a long time, so that it can exert constant pressure on the growing cartilage, changing it into the
desired shape.
The success of these conservative methods confirms that a constant pressure maintained for a long time on the cartilage of the ear of growing children can change the shape and increase
the cephaloauricular angle of the outer auricle.
Griffin et al. have demonstrated that the cartilage of the auricle has a homogeneous structure, although the concha has a greater resistance to deformation than the helix [5]. This
resistance is comparable to that of nasal cartilage (about 200 times lower than the resistance of Medpor prostheses used for ear reconstruction). The concha had a greater rate of loading
than the antihelix when taking into consideration the anatomical structure of the cartilages. One reason for this difference may be that the concha is a curved structure, which can support
compressive loads [5]. Therefore, if a constant elastic force were applied at the level of the concha, it would be less harmful than if applied at the antihelix level.
It is well known that the pressure of the mask elastic on the skin of the posterior concha of the auricle for a long time causes pain
and erythema, due to the continuous rubbing of the elastic on the skin in the same position. This has led some users to apply silicone rear ear supports that decrease decubitus, but
increase the distance of the auricle from the mastoid region. Others, on the other hand, prefer to change the position of the elastic by moving it more towards the antihelix than the
mastoid region, thus applying an elastic force in an area where the cartilage has less resistance, with a consequent increase in the cephaloauricular angle of the outer auricle.
Therefore, the use of surgical masks with flat elastic earloop in growing children for many hours a day not only
leads to intolerance and decubitus of the retroauricular skin (as for adults), but can also influence the correct growth and angulation of the outer ear with the consequent increase in the
incidence of protrusion of the outer auricle (Fig. 2a and b).
One alternative to the surgical mask is the earmuffs mask (in which the ears are completely wrapped, held in place by mask
elastic cord at the back of the ear) or the band mask with lateral slits at the ears: also these models, due to their conformation, tend to create a constant pressure on the
antihelix, increasing the auriculocephalic angle (Fig. 2c).
Many scientific societies of paediatrics and pedagogy have raised doubts about the risks that this situation of forced constriction by Covid-19 can cause on the normal psychophysical
development of children; however, it has never been pointed out how the use of surgical masks with ear loops can be harmful to the correct development of the auricle by permanently
modifying the cartilage of the concha in growing children.
We are confident that highlighting this potential complication to those involved in the procurement of masks will stimulate the search for alternative solutions, while maintaining the
possibility of legitimate prevention of the potential spread of the virus.
Face masks are an essential part of protecting yourself and others from coronavirus, but that doesn't make them any easier to wear. Over the past few weeks, we've realized
firsthand how masks can wreak all sorts of havoc on our skin. Now many of us are dealing with another unfortunate side effect: discomfort on our ears.
Those loops that keep your mask in place can put a lot of pressure on your ears and aggravate your skin, but there are a few ways to prevent that. From skin care tips to face mask ear
savers, these are the tricks experts swear by.
The majority of us only wear a mask on Halloween as temporary props we can take off at any time. But now that we're wearing masks out in public on a regular basis, we're quickly
realizing that they can be uncomfortable.
"Moisture and friction can cause irritation, as prolonged mask use can irritate sensitive skin. Some masks are tied around the head, and some are fastened by loops that go over and
around the ears, so the ears can (be) irritated as well," said Dr. David Lortscher, board-certified dermatologist and CEO of skin care brand Curology.
Irritation can show up in many forms, including bruising, raw skin or increased acne and breakouts.
When face mask straps rub against your ears, they create friction that can result in inflammation in the outer skin layer and blistering.
"This can cause open wounds or scabbing of the skin, which increases your risk of developing an infection. Plus it makes it a challenge to apply a mask again over those
areas," said Dr. Joshua Zeichner, board-certified dermatologist and director of cosmetic and clinical research at Mount Sinai Hospital's department of dermatology.