key: cord-0955932-n5weogm1 authors: Ong, Jonathan J. Y.; Chan, Amanda C. Y.; Bharatendu, Chandra; Teoh, Hock Luen; Chan, Yee Cheun; Sharma, Vijay K. title: Headache Related to PPE Use during the COVID-19 Pandemic date: 2021-06-15 journal: Curr Pain Headache Rep DOI: 10.1007/s11916-021-00968-x sha: 04adc0caa8ae79461f29f1bf5e4c311a9d8defd2 doc_id: 955932 cord_uid: n5weogm1 PURPOSE OF REVIEW: Personal protection equipment (PPE)–associated headache is an unusual secondary headache disorder that predominantly occurs in healthcare workers as a consequence of the donning of protective respirators, face masks and/or eyewear. The appreciation of this entity is important given the significant ramifications upon the occupational health of healthcare workers and could additionally have an impact on persons living with pre-existing headache disorder(s). RECENT FINDINGS: There has been a renewed interest and recognition of PPE-associated headaches amongst healthcare professionals, largely brought about by the ongoing COVID-19 pandemic which has besieged healthcare systems worldwide. De novo PPE-associated headaches may present with migrainous or tension-type features and can be viewed as a subtype of external compression headache. The prognosis of the disorder is generally favourable, given that most headaches are short-lived without long-term sequalae. Several aetiologies have been postulated to account for the development of these headaches. Notably, these headaches can affect the occupational health and work performance of healthcare workers. SUMMARY: In this review, we discuss the epidemiology, clinical characteristics, probable etiopathogenesis, management and prognosis of PPE-associated headaches in the context of the COVID-19 pandemic. Future directions for research and PPE development are proposed. Coronavirus disease 2019 attributed to the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) was declared a global pandemic by the World Health Organisation (WHO) in March 2021 [1] [2] [3] [4] . The pandemic continues to be an ongoing public health issue with more than 133 million cases recorded globally [5] . As the main mode of dissemination of the SARS-CoV-2 virus is via respiratory droplets, healthcare personnel worldwide were mandated to wear personal protective equipment (PPE), while caring for suspected or confirmed COVID-19 patients in the course of their duties. Essentially the donning of full PPE necessitates the use of a pre-fitted size-appropriate respirator (e.g. N95 face mask), protective eyewear (goggles or face shield), gown and gloves [6, 7] . The most commonly used respirator is the N95 face mask, which has been designed to filter off at least 95% of particles that are >0.3um, preventing these particles from entering the lungs. Although coronaviruses measure 0.06-0.14 μm in diameter, their small size renders them random Brownian motion, making them more prone for being trapped by the filter. Therefore, N95 respirator masks filter the coronavirus effectively, provided the mask has a proper seal. Therefore, a fit test is necessary before donning these masks [7] . In addition to This article is part of the Topical Collection on Uncommon and/or Unusual Headaches and Syndromes PPE, healthcare professionals working in high-risk hospital areas may also need to use powered air-purifying respirators (PAPR) when aerosol-generating medical procedures (e.g. endotracheal intubation) are performed [8, 9] . It is worthwhile to note that each country has their own certification standard for each mask type, e.g. the USA (National Institute for Occupational Safety and Health (NIOSH), 42CFR Part 84), Europe (149:2001) and China (KN95, GB2626). The European Union classifies respirator masks into FFP1, FFP2 and FFP3 where FFP stands for filtering face piece. N95 is roughly equivalent to FFP2 and N99 is roughly equivalent to FFP3 masks. FFP1, FFP2 and FFP3 are also called P1, P2 and P3. In the real-world practice, the donning of PPE is often physically distressing, especially when used for an extended duration as necessitated by outbreaks of infectious diseases with a protracted course, as in the case of COVID-19 [10] [11] [12] . Headache arising from the sustained compression of pericranial soft tissues by the wearing of objects with tight bands or straps (e.g. helmets, diving goggles, frontal lux devices) has been previously reported in the literature [13] [14] [15] [16] [17] [18] [19] . The pain or discomfort (headache, facial pain, and/or ear lobe discomfort) arising from tight-fitting respirators and their accompanying elastic head straps confers limited tolerability, especially when used for a prolonged period of time [20] [21] [22] . Other nonmechanical related adverse effects such as difficulty breathing, dizziness and shortness of breath have also been previously reported as potential etiological factors, affecting the overall satisfaction and occupational health of healthcare professionals [23] . The unprecedented scale of the COVID-19 pandemic provides a hitherto opportunity for the study of PPE-associated headaches amongst healthcare workers, adding to the limited medical literature on this unusual entity. This review shall discuss the epidemiology, clinical features, probable etiopathogenesis, prognosis and management of PPEassociated headaches in the context of the ongoing COVID-19 pandemic. Future directions for research and PPE development will also be proposed. The incidence of PPE-associated headaches amongst healthcare workers in the context of the COVID-19 pandemic ranges from 26.5%-90.7% [24, 25••, 26-32, 33•, 34•, 35•, 36•] . In comparison, a study amongst healthcare providers using the N95 face mask during the 2003 severe acute respiratory distress syndrome (SARS) epidemic in Singapore observed that new-onset face mask-associated headaches occurred with an incidence of 37.3% [37] . Since the start of COVID-19 in December 2019, there have been a total of 6 published studies specifically conducted to understand PPE-associated headache amongst healthcare workers (see Table 1 ) [25••, 33•, 34•, 35•, 36•, 38•] . Based on these studies, several factors have been found to confer a greater likelihood of developing de novo PPE-associated headaches. These include having a pre-existing primary headache diagnosis (e.g. migraine or tension-type headache) [ [25••] or the use being a healthcare worker (in particular being a nurse) or having a history of asthma was also found to correlate with the development of such headaches. Interestingly, Caglar et al. reported that every hour spent using PPE increased the risk of developing new symptoms (including headache) by 1.38 times [31] . Recently published studies specifically looking at PPEassociated headache amongst healthcare workers during COVID-19 provide interesting insights into the phenotype of this unusual entity which until now has been infrequently reported [ Table 1 ). The HAPPE (headaches associated with personal protective equipment) study was the first study worldwide to characterise the clinical features of de novo PPE-associated headaches in the context of COVID-19 [25••] . This and subsequent studies conducted have helped to define the following clinical features: (a) Headache lateralisation. Headache is usually bilateral with the experienced discomfort localising to areas where the protective respirator and eyewear, and their accompanying straps, makes contact upon the head, face and neck (see Fig. 1 [39] . In two studies, the criteria for ECH Several proposed aetiologies and mechanisms have been postulated to explain the development of PPE-associated headaches. Mechanical and physical factors such as pressure, tension or tractional forces from the respirator and/or protective eyewear and their accompanying bands or straps can cause localised tissue damage or exert an irritative effect on the superficial sensory nerves (in particular trigeminal or occipital nerve branches) innervating the face, head and cervical regions [15] (see Figs. 2 and 3) . Additionally, neck strain from the donning of such equipment could trigger cervicogenic or tension-type headache [40, 41] . The resultant peripheral sensitisation activates the trigeminocervical complex through nociceptive information transmitted via different branches of the trigeminal nerve through the trigeminal ganglia and brainstem to the higher cortical areas, thereby triggering such headaches [42] . Additionally, a compressive neuralgia affecting superficial sensory nerves [43] or skin breakdown [44, 45] could also serve as contributory factors for headache development. At present, there is conflicting opinions pertaining to the causative role of hypoxemia and/or hypercapnia towards the development of PPE-associated headaches. Theoretically, the donning of the N95 respirator could alter the physiology of respiration leading to increased breathing resistance which in turn could increase respiratory muscle usage, potentially affecting carbon dioxide (CO 2 ) [46] and oxygen levels [47, 48] . Previous reports have suggested that such alterations can cause altered cerebral haemodynamics due to hypoxemia and CO 2 retention, leading to headache even after a few minutes of wearing the N95 respiratory [23, 49] . However, such physiological changes were reported to neither cause a significant change in the blood concentrations of these gases [39] nor did they translate into clinically relevant effects in healthy individuals [47, 48, 50, 51] . On the contrary, it was found that speech and low physical activity rates while wearing protec- tive respiratory devices could lead to CO 2 rebreathing, causing discomfort and reduced tolerability [52] . Apart from the perturbations in respiratory homeostasis, the use of PPE has been found to cause considerable changes in other physiological parameters (e.g. heart rate, perfusion index), indirectly causing a constellation of adverse effects including headaches, tiredness, difficulty breathing and palpitations especially after prolonged shift working [32] . In an attempt to provide further clarification of the effect of hypercapnia and PPE-associated headaches, our group evaluated the cerebral haemodynamic changes of 154 healthcare workers during the COVID-19 pandemic, who donned either the N95 respirator alone or in combination with PAPR [8••]. Cerebral haemodynamic changes were assessed via transcranial Doppler (TCD) monitoring of the middle cerebral artery (see Fig. 4 ). In this study, the mean flow velocity (MFV) and pulsatility index (PI) were recorded at baseline, 5 min after donning the N95 respirator and 5 min after donning PAPR. These TCD parameters have been previously validated a priori to be reliable surrogates of cerebral blood flow and vascular tone. These parameters can be altered by changes in the partial pressure of CO 2 in arterial blood [53] . The end-tidal carbon dioxide (ETCO 2 ) pressure was also assessed via a cannula. The donning of N95 respirator resulted in a significant increase in MFV and a decrease in PI while ETCO 2 increased. In a subset of participants donning the N95 respirator in combination with PAPR, we demonstrated the normalisation of PI, accompanied by normalisation of ETCO 2 after 5 min. It is possible that the N95 respirator could cause an expansion of the effective dead space volume around the mouth and nose, resulting in hypercapnia [54] , which could be reversed by the concurrent use of PAPR leading to the normalisation of ETCO 2 as well as cerebral haemodynamic parameters. We postulate that the positive pressure generated by PAPR could have led to a relative hypocapnia by increasing the concentration of oxygen inside the hood and through positive pressure-assisted exhalation. Our findings suggest a possible contributory role of hypercapnic cerebral vasodilatation as one possible mechanism giving rise to PPE-associated headaches, which could be mitigated by the combined use of PAPR. In addition, our subjects opined that the combined use of the N95 respirator and PAPR was more tolerable as compared to when the N95 respirator was used in isolation. In a separate study, our group further evaluated the concentration of ETCO 2 amongst 11 healthy individuals when various PPE equipment were used [55] . Carbon dioxide levels were measured under 4 different conditions-(a) during regular breathing with no mask worn (b) with donning of the JustAir® PAPR (c) or KN95 respirator (Emercate, Shenzhen, China) (d) or a valved respirator (model 7502/37082(AAD) (3M, St. Paul, MN)). Serial ETCO 2 measurements were done using a nasal cannula for 15 min for each PPE configuration to evaluate whether NIOSH limits were breached. We found that the use of face masks (KN95 and valved respirator) resulted in significant increases in ETCO 2 concentrations, which exceeded the 8-h NIOSH exposure threshold limit value-time-weighted average (TLV-TWA). However, these concentration increases did not breach short-term (15-min) limits. Notably these levels were considerably lower than the long-term (8-h) NIOSH limits during the donning of JustAir® PAPR. Our findings lend further support towards the use of PAPR, alone or in combination with face masks, which may be especially pertinent in circumstances where an extended period of PPE donning is anticipated. Our experience from the HAPPE study and other reports suggest that PPE-associated headaches generally have a favourable prognosis as attacks are mostly short-lived with no prolonged sequelae [ reported that an elevated baseline blood creatinine level as compared to that measured after a 4-h shift could potentially be a useful blood biomarker that could predict the development of PPE-associated headaches [56] . Clearly more studies are necessary to elucidate the clinical relevance and utility of this initial finding. At present, there are no robust evidence-based treatment strategies for the management of PPE-associated headaches. Given that the COVID-19 pandemic is far from over, one may postulate that headache frequency, intensity, use of analgesics and work performance may continue to worsen if the pandemic is sustained for a longer duration. Shorter duty hours and the institution of frequent rest breaks translate into a shorter duration of PPE usage and might be a viable long-term strategy to avoid the adverse impact of PPE usage, especially when used for an extended duration [25••] . The use of PAPR alone (those with double filters) or together with a separate respirator (e.g. N95 mask) for healthcare workers on longer shifts could also be advocated, especially for susceptible healthcare workers [8••, 55] . Environmental modification strategies such as the maintenance of an optimal ambient temperature and adequate ventilation may additionally help to alleviate the discomfort of PPE usage especially in climates where high temperatures and humidity are experienced throughout the year [28] . The avoidance of known headache trigger factors such as sleep deprivation, physical and psychological stress, irregular mealtimes and inadequate hydration should be incorporated in the management strategy to decrease the propensity of headache occurrence [42, [57] [58] [59] [60] . Simple measures to decrease PPE-related pressure effects such as wearing of mask straps across the crown to prevent pressure on the ears or application of alcohol-free film barriers or petroleum jelly on could potentially help as well [44, 45, 61] . Given that the use of PPE will likely become more widespread in the foreseeable future, PPE design in addition to the promotion of strategies to guarantee the safety of healthcare workers while catering to their work productivity and overall quality of life will be key in the battle against COVID-19 and other emerging infectious diseases in the coming years. Although the vast majority of PPE-associated headaches fulfilled the criteria for ECH (see Table 1 ), a proportion of healthcare workers had time intervals exceeding the stipulated 60-min time limit in terms of the onset from PPE donning and resolution of headache post-PPE doffing [25••] . The extended duration of PPE usage amongst healthcare workers during COVID-19 is largely brought about by necessity as mandated by infectious diseases protocols and represents a clear departure from prior usage patterns pre-pandemic. It is plausible that despite any discomfort arising from PPE usage, frontline healthcare workers may have to endure the discomfort without the opportunity for frequent adjustments or removal. As astutely reported by Farronato et al., the dental professionals in their cohort had usually took off their masks in between patients, which is why the time spent using PPE was not found to be correlated associated with headaches in their study [30] . Notably, a proportion of PPE-associated headaches have been found to be associated with migrainous symptomatology [25••, 33•] . It is possible that in predisposed subjects, if the stimulus is prolonged, external compression may result in a more severe migraine attack [62] . From an anatomic standpoint, the head and neck regions where pain is localised may also be consistent with migraine or tension-type headache (see Fig. 2 ). Further larger-scale systematic field studies are necessary to validate and determine the phenotypic variance of these headaches amongst frontline healthcare workers. Perhaps in the next iteration of the ICHD, the diagnostic criteria of ECH could be better defined through the inclusion of 'migrainous' and 'tension-type' subtypes to better characterise the phenotype of ECH. At present, conventional PPE prioritise the adequacy of fit over comfort or tolerability, especially when these equipment are donned for a prolonged duration as in the context of disease outbreaks [11, 63] . Mask and protective eyewear designs rely heavily on elastic straps. Furthermore, prolonged PPE usage can cause thermal discomfort, as a consequence of moist warm air accumulating within the confines of the mask and protective eye-wear micro-environment, further contributing to the development of de novo PPE-associated headache, especially in hot and humid environments [64, 65] , where heat stress, dehydration and associated cognitive impairment could additionally aggravate the effects of extended PPE use [66, 67] . These factors have an important bearing on PPE compliance amongst healthcare workers, with consequent ramifications on occupational health, workplace safety, productivity and ultimately job satisfaction. Clearly, there is an urgent need to develop the nextgeneration PPE, perhaps through the use of novel material engineering solutions, which will not only be safe but also better tolerated, and consequently less propensity for the development of headaches [68, 69••] . Such endeavours are important as they help increase the compliance and proper usage of PPE and thus improve occupational safety amongst healthcare workers [11, 27, 67, 68] . The use of PPE amongst frontline healthcare workers to protect themselves against SARS-CoV-2 is undeniably essential. PPE-associated headaches are increasingly recognised as a form of secondary headache that has recently surfaced with renewed interest owing to the ongoing COVID-19 pandemic. This disorder has important occupational health ramifications given that the trajectory of the pandemic is likely to be protracted. The reality of a contracted healthcare workforce translating into the need for extended working hours or shifts potentially increases the exposure to viral load. There is thus an urgent need to improve the design of existing PPE options, which not only fulfils conventional safety standards but also user comfort and tolerability. This is perhaps one of the biggest issues facing healthcare professionals today, which needs global prioritisation for not only COVID-19 but also for future pandemics of similar proportions. Code Availability Not applicable. Author Contribution All the authors contributed in the conceptualisation, initial draft, critical revision and final approval of the manuscript. Ethics Approval Not applicable. Consent to Participate Not applicable. Conflict of Interest None of the authors declare any competing interests associated with this manuscript. Human and Animal Rights and Informed Consent Not applicable. 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