Introduction

On March 11, 2020, the World Health Organization declared COVID-19 to be a global pandemic. At the time of the announcement, the global number of COVID-19 cases was increasing day by day, and five months later, worldwide cases continued to increase. COVID-19 is spread by respiratory droplets, and healthcare professionals are mandated to wear PPE when caring for COVID-19 patients. PPE kit contains gowns, pair of gloves, masks, and face shields. Facemasks and respirators are important components of personal protective equipment for health care workers in hospitals and public civilians during these pandemic.

Normally, slight fluctuations in the external environment can affect the function of cilia. Dry conditions and extreme cold conditions can hinder ciliary action thereby stopping ciliary movements at temperatures below 10 °C and temperatures above 45 °C [1]. The primary function of the nose is to humidify, warm the inspired air and also aids at removing the harmful and micro particles from entering into the lower respiratory tract. An average adult usually inspires about 10,000 L of air daily. Nasal mucosa is a highly vascular structure and has a large surface area of 150 cm square. Physiologically, 50% resistance in the entire airway is maintained by the nose, when these function gets affected it results in total respiratory function. All of these components contribute to normal homeostasis of the body [1].

Facemasks are of vital importance in protecting the healthcare workers from the Corona virus disease (SARS-COV 2) [2]. Wearing masks for a prolonged period of time causes a host of physiologic and psychologic burdens and can decrease work efficiency. And it also affect the wearer’s whole body thermal sensation. Prolonged use of face masks causes physical adverse effects such as headaches, difficulty breathing, acne, skin breakdown, rashes, and impaired cognition. It also interferes with vision, communication, and thermal equilibrium (Table 1).

Table 1 One-sample statistics

The aim of this study is to determine the various adverse effects of prolonged usage of facemasks which results in poorer adherence and increased risk of susceptibility to infection.

Methods

A self-constructed questionnaire was made based on pilot study and it was further analysed and assessed by the experts. A final questionnaire of 21 were given to the participants which includes type of mask used, duration, difficulty in breathing, dryness of nose, dryness of mouth, nasal irritation, nasal itching, sweating, headache. And questions like side effects of using face mask, how they dispose the mask, how often they reuse, how they sterilize, do they touch the outer aspect while using.

This is a Cross-sectional study conducted in Chettinad Hospital and Research Institute, Kelambakkam. A total of 124 ENT professionals were analysed during this study period.

Inclusion criteria includes ENT professionals those who are willing for the study. Exclusion criteria included non-healthcare workers and medical practitioner except ENT. All answered questionnaires were sent for statistical analysis by One sample T test. The tests used are one sample T test, p value significance, mean and standard deviation, frequency and percentage. To find the association between the variables one sample T test is used and p value more than 0.05 was considered as significant. For descriptive variables, mean and standard deviation (continuous variables), frequency and percentage (categorical variables) is used (Table 2).

Table 2 One-sample test

Results

A total of 124 ENT professionals were given the questionnaire of which females were 59 (47.58%) and males were 65 (52.42%). All the 124 ENT professionals were included in the final analysis. Most of the study population were in the 25–35 years age group (66.13%). The most common designation was junior resident (39.52%) followed by assistant professor (16.13%). Most of the study population wore the face mask for 4–8 h per day (50%) and most of them used N-95 type of mask for prevention.

Of these 124 participants, 63.71% experienced difficulty in breathing while wearing face mask, 37.10% experienced dry nose, 46.77% experienced dry mouth, 57.26% experienced nasal skin irritation and discoloration, about 49.19% developed nasal itching, 83.06% developed sweating in the mask covered area, 39.52% experienced headache and 48.39% removed their mask and take a deep breath when they have headache.

About 80.65% people believed there are side effects due to wearing mask, 75% felt uncomfortable while wearing mask and 77.42% removed their mask when they feel uncomfortable. Most of the people (46.77%) use their mask on a particular day of a week and then reuse the same mask on the same day over the following two weeks, 55.65% sterilize their mask by hanging it near the sun exposed area and 57.26% discard their mask if they cough/sneeze while using mask.

The most common modality of prevention in an OPD setup was face mask with face shield (31.45%), 48.39% lowered their face mask in the hospital premises and 62.9% touched the outer aspect of the mask while wearing it (Fig. 1).

Fig. 1
figure 1

Percentage results of the questionnaire

Discussion

In this study, among the 124 participants the result suggests that continuous usage of facemasks can lead to a wide variety of nasal discomfort and side effects pertaining to the nasal skin and mouth due to its prolonged usage. There is a decrease in humidification of air beneath the facemask and decrease in transpiration of the skin around the nasal and perioral region. In this current study, we found that 37.10% of the participants had dry nose on wearing the mask for a prolonged period of time.

Facemasks protect against harmful pathogens and its use is essential during the pandemic. Masks prevent humidification, increase respiration and temperature in perioral region which could possibly be due to decreased transpiration.

Wearing the facemask for a prolonged period causes reduced heat loss from the body by various mechanisms like conduction, convection, evaporation and radiation [3]. Since facemasks cover both nose and mouth it results in reduction in cooling impact of the facial temperature. DuBois et al. stated that skin temperature > 34.5 °C is not acceptable because of the increased thermal sensation and results insignificant discomfort to the wearer’s [4]. Some studies have stated a high temperature in the cheek region underneath N95 facemasks [5]. In the current study, we found about 83.06% of ENT professionals have developed excessive sweating around the mouth region. As a result of the discomfort caused by the facemasks, the subjects tend to touch the facemasks at frequent intervals (62.9%) and it can lead to contamination of the hands and face leading to more infections.

Another study stated that temperature and the quantity of water delivered by expired air is notably higher with mouth breathing when compared to nasal breathing. In our study also we assessed that about 63.71% of the participants had difficulty in breathing with the facemasks on. Foo et al., analysed healthcare workers during the SARS pandemic in 2003 at Singapore, and reported that 51.4% experienced itching induced by face masks [6]. In the current study we found that about 49.19% of the participants have developed nasal itching.

The study with 124 ENT professionals is adequate enough for the technical hypothesis but insufficient for evaluation of multifactorial effects. If we had involved health care professionals from other specialities in the study, it would result in a significant change in the results of the study.

Conclusion

In conclusion, the use of facemask causes significant discomfort to all the participants during its prolonged usage which can limit the efficient usage of facemask, leading to reduced protection. Since facemasks are essential to protect us from COVID-19, certain strategies can be followed to reduce the discomfort due to its prolonged usage such as encouraging nasal breathing, taking short breaks from wearing mask in a safe environment and to maintain hydration.