Headaches associated with acute SARS-CoV-2 infection: A prospective cross-sectional study

Introduction

Coronavirus disease-19 (COVID-19) infection due to severe acute respiratory syndrome virus corona virus 2 (SARS-CoV-2) has created a massive global health crisis in 2020. India has presently the second largest number of COVID-19 cases in the world. SARS-CoV-2 virus though initially considered a primary respiratory pathogen is now known to be neurotrophic and neuroinvasive. ¹ The neurological symptoms of COVID-19 infection are diverse, ranging from headache, anosmia, aguesia and seizure, to severe complications such as stroke, Guillain-Barre syndrome and encephalopathy.^1–3 Headache is one of the most common symptoms associated with COVID-19 infection and can be an inaugural and isolated symptom of COVID-19 infection. ⁴ The prevalence and characteristics of COVID-19-related headache (CRH) in Indian patients and its prognostic value are not known. As the number of COVID-19 patients increased at our centre, neurologists were pooled in to treat COVID-19-infected patients. Although this was a great challenge, it gave us an opportunity to evaluate neurological manifestations in COVID-19 patients. We hypothesized that headache is a common and early symptom of COVID-19 infection, with uncertain prognostic value. In this study, we aimed to analyse the characteristics of headache and its relation to other symptoms and laboratory markers. We also compared the characteristics of those with and without headaches to identify any differences between the groups.

Methods

Results

During the study period of 1 month, there were 225 patients with acute SARS-CoV-2 infection. Of these 225, 76 patients (33.8 %) had headaches. The mean age of patients with headache was 48.89 ± 15.19 years, with 53.9% (41/76) being females. The mean age of patients without headaches was 54.61 ± 14.57 years, with 72.4% (108/149) being males. The proportion of patients having headache was the highest in the age group of 31–40 years (51.5%) and in the age group of 21–30 years (47.6%), while it was 24.3% in the age group of 41–50 years, 30.3% in the age group of 51–60 years and 29.8% in those above 60 years.

Comparison between COVID-19-infected patients with and without headaches

A comparison between COVID-19-infected patients with and without headaches showed that those with headaches were significantly younger than those without headaches (48.89 vs 54.61 years; p < 0.007). Females were more common in the headache group (53.9% vs 27.5%; p < 0.001). There was no difference in the presence of systemic symptoms like fever, cough, breathlessness, vomiting and diarrhoea between both groups. Sore throat, anosmia and myalgia were more common in those with headaches. There was no difference between the groups with respect to the presence of diabetes, hypertension, hypothyroidism, chronic kidney disease, chronic liver disease, bronchial asthma, stroke, epilepsy and Parkinson’s disease. Most patients with a history of migraine and tension-type headache were in the headache group (p < 0.001). Inflammatory markers like leukocyte count (p < 0.017,) ESR (p < 0.023) and ferritin (p < 0.014) were higher in patients without headache (Table 1).

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Table 1.

Comparison of COVID-19-infected patients with and without headaches.

Variable	COVID-19 with headache (n = 76)	COVID-19 without headache (n = 149)	P value
Mean age in years (SD)	48.89 ± 15.19	54.61 ± 14.57	0.007
Gender
Male	35 (46%)	108 (72.4%)	0.001
Female	41 (53.9%)	41 (27.5%)	0.001
Associated symptoms
Cough	47 (61.8%)	92 (61.7%)	0.9
Dyspnoea	31 (40.7%)	58 (38.9%)	0.78
Fever	48 (63.1%)	78 (53.4%)	0.12
Sore throat	14 (18.4%)	10 (6.8%)	0.007
Anosmia/ageusia	6 (7.9%)	3 (2.1%)	0.03
Myalgia	19 (25%)	15 (10.3%)	0.003
Vomiting	2 (2.6%)	5 (3.4%)	0.76
Diarrhoea	6 (7.9%)	9 (6.2%)	0.59
Confusion	1 (1.3%)	4 (2.7%)	0.510
Co-morbid conditions
Diabetes	36 (47.3%)	75 (50.3%)	0.674
Hypertension	29 (38.2%)	72 (48.3%)	0.147
Coronary artery disease	2 (2.6%)	15 (10.1%)	0.046
Chronic kidney disease	2 (2.6%)	6 (4.02%)	0.593
Bronchial asthma	2 (2.6%)	2 (1%)	0.489
Hypothyroid	2 (2.6%)	3 (2.1%)	0.766
Stroke	1 (1.3%)	5 (3.4%)	0.369
Parkinson’s disease	0 (0)	3 (2.01%)	0.213
Chronic liver disease	0	2 (1.4%)	0.310
Epilepsy	1 (1.3%)	1 (0.7%)	0.626
Past history of migraine/TTH
Migraine	18 (23.7%)	1 (0.7%)	0.001
TTH	10 (13.2%)	2 (1.4%)	0.007
Investigations
Haemoglobin (12–16 g/dL)	13.10 ± 2.08	13.30 ± 2.49	0.561
Total count (4–11 × 103/µL)	7234.17 ± 3054.96	8773.35 ± 5103.65	0.017
Platelet count (150–400 × 103/µL)	161.08 ± 107.00	244.23 ± 413.03	0.088
Erythrocyte sedimentation rate (10–20 mm/h)	39.28 ± 23.29	50.41 ± 27.61	0.023
Creatinine (0.57–1.11 mg/dL)	1.26 ± .893	1.93 ± 7.77	0.464
Sodium (136–145 mEq/L)	136.12 ± 3.69	135.07 ± 4.11	0.068
C-reactive protein (0.02–0.5 mg/dL)	9.08 ± 23.17	8.11 ± 7.70	0.653
Ferritin (4.6–204 ng/mL)	381.06 ± 485.27	657.10 ± 863.80	0.014
D-dimer (0.0–255 ng/mL)	464.89 ± 860.31	767.96 ± 1294.79	0.072
Random blood sugar (<200 mg/dL)	190.05 ± 81.69	197.82 ± 75.68	0.597

COVID: coronavirus disease; SD: standard deviation; TTH: Tension-type headache.

Discussion

Headache appears to be an important symptom of COVID-19 infection and can occur as an inaugural and isolated symptom, heralding other systemic and neurological manifestations. SARS-CoV-2 is a neurotrophic virus and gains entry into the cells using the angiotensin-converting enzyme-2 (ACE2) receptor on the surface of the cells. It has been hypothesized that the virus reaches the nervous system either through a haematogenous spread due to a leaky blood–brain barrier or like a ‘Trojan horse’ through infected lymphocytes.^1,8 It is postulated that SARS-CoV-2 virus can also gain direct entry into the central nervous system through the cribriform plate or the trigeminal nerve endings, resulting in various neurological manifestations.^1,8

The incidence of headache in various studies ranged from 6.5% to 71%. ⁴ A recent meta-analysis of multiple studies showed a pooled prevalence of headache to be 14.7% (95% CI, 10.4–18.9). ² While most studies from around the world demonstrate a higher prevalence of CRH,^7,9,10 published literature from Asia shows a much lower prevalence of 6%–34%. ³ Another small study of 21 COVID-19 patients from India showed a headache prevalence of 13.6% only. ¹¹ This is probably because most early studies from Asia were retrospective chart reviews, while studies from other countries were prospective involving a larger number of patients.

In this study, we found that COVID-19 patients with headaches were younger when compared to those without headaches. Headaches were also more common in females, although COVID-19 infection was seen more commonly in males. Female preponderance in CRH was also seen in other studies, corresponding to an increased incidence of primary headache disorders like migraine in females.^7,9,10

CRHs according to the ICHD3 can be classified under acute headache attributed to systemic viral infection (9.2.2.1). ⁵ These headaches, as defined, occur in temporal relation to the onset of viral infection and worsen or improve parallel to the course of the disease. Headache is either diffuse in character or of moderate to severe in intensity. In this study, the majority of patients described a bifrontal or holocranial headache with a dull aching or throbbing quality, similar to the observations from other studies.^4,7,9,12 However, when analysing the intensity of pain, we found that the majority of our patients had a headache of mild to moderate intensity. Data from across the world suggest that CRHs are of moderate to severe intensity.^4,10,12 In our headache cohort, the majority had short-lived headaches lasting less than 5 days, while few had headaches beyond 10 days. A proportion of COVID-19-infected patients can have headaches lasting beyond 6 weeks of their illness, as observed in a study from Spain. ⁹ These discrepancies may be due to differences in various host factors and viral strains, specific to our population.

We also observed that patients with a history of migraine and tension-type headache were more likely to have CRH. But the majority of patients with CRH had no past history of primary headaches, in line with the observation from published literature,^4,7,12 suggesting that COVID-19 infection per se may be the cause of the headache. CRH in patients with migraine are reported to have a rapid onset, longer duration, higher intensity and poor responsiveness to analgesic medication.^4,7,9 However, we found that the majority of our patients with migraine and CRH had attacks of similar nature as their previous migraine episodes, and in only a few, headache had a different character. Previous studies have described anosmia, ageusia, loss of appetite, weight loss and diarrhoea as distinctive features of CRH.^4,7,12 In thus study, the majority of patients with headache did not have anosmia, although anosmia was more common in the CRH group. Anosmia reflects SARS-CoV-2-induced olfactory epithelial cell damage rather than olfactory neuronal injury ¹³ and thus may be a marker for COVID-19 infection rather than headache. We did not find any association of headache with loss of appetite, weight loss or diarrhoea. These discrepancies in various clinical features may be due to genomic variations in the host and virus strains. Genomic variations involving the ACE2 receptor, like rs2285666 polymorphisms, are reported in the Indian population. ¹⁴

We also observed dissociation between inflammatory markers and the presence of headache. A negative correlation between inflammatory markers and headache was also observed in another study, where interleukin-6 (IL-6) levels were lower (22.9 (57.5) vs 57.0 (78.6) pg/mL; p = 0.036) in those with headaches. ⁹ These findings suggest that direct activation of the trigeminovascular system by SARS-CoV-2 through the trigeminal nerve endings in the nasopharyngeal cavity may be an important mechanism of CRH, rather than systemic inflammation.^7,9,12

Many of the patients with CRH, even those without a history of migraine, had associated photophobia and phonophobia. The exact mechanism by which a migraine-like headache is triggered by a systemic viral infection is not known. Calcitonin gene–related peptide (CGRP) is a 37-amino-acid neuropeptide known to play a key role in migraine pathogenesis. ¹⁵ There is a co-existence of CGRP and ACE2 receptors in the neurons of trigeminal ganglia.^4,16 Inflammatory cytokines like tumour necrosis factor-alpha (TNF-alpha) and IL-6 are also known to increase CGRP levels. ¹⁷ Studies in the rat trigeminal ganglion neurons have demonstrated that TNFR1 receptors are present in the majority of CGRP-containing neurons and there is an increase in CGRP secretion and CGRP promoter activity when cultures are treated with TNF-alpha. ¹⁸ These findings suggest that the invasion of trigeminal nerve endings by SARS-CoV2, along with an increase in the inflammatory cytokines, ultimately causes an increase in CGRP levels, producing an activation of trigeminovascular system, resulting in a migraine-like headache. ¹⁷

The main limitations of this study include the observational nature, hospital setting, limited number of patients and lack of propensity-matched cohorts. Hence, we cannot extrapolate the findings of this study to the general population. The questionnaire was neither validated nor pilot tested prior to the study as we had limited time and resources during the peak of the pandemic. However, it is one of the largest studies on CRHs from the Indian subcontinent. Another strength of this study is that we have compared the group with headaches with those without headaches. We have also attempted to hypothesize plausible mechanisms for CRHs.

Conclusion

Headaches are a common and early symptom of SARS-CoV-2 virus infection in the Indian population. CRH is more frequently seen in young females and in those with a history of primary headache disorders like migraine and tension-type headache. These headaches usually have a dull aching quality and are mild to moderate in intensity. They are usually benign and short-lived. The lower level of inflammatory markers in those with headaches suggests that these headaches are probably related to the local spread of SARS-CoV-2 virus through the trigeminal nerve endings and ultimately result in the activation of the trigeminovascular system.

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