Cytokines in primary headache disorders: a systematic review and meta-analysis

The pathophysiology of the primary headache disorders tension-type headache, migraine, cluster headache, and new daily persistent headache (NDPH), and the degree of overlap in pathophysiology between the disorders, is incompletely understood [1‐4].

Cytokines are small proteins important in cell signaling, particularly in regulation of the immune system. They have complex mechanisms of action but are broadly classified as pro-inflammatory, such as interleukin (IL)-6 and tumour necrosis factor alpha (TNF-α); or anti-inflammatory, such as IL-4 and IL-10 [5, 6].

Several observations suggest that the neuroinflammation and pro-inflammatory cytokines, may be involved in the pathophysiology of episodic headache attacks. These observations include the high frequency of acute headache as a symptom of systemic infection such as influenza and Covid-19 which may be mediated by cytokines [7‐9], the high frequency of headache as an adverse effect of the therapeutic administration of the cytokines TNF-α or beta interferon for cancer or multiple sclerosis [10, 11], and the efficacy of non-steroidal anti-inflammatory drugs in acute treatment of headache attacks [12].

Cytokines and neurogenic inflammation are also hypothesised to be involved in the process of transformation from an episodic headache disorder to chronic daily headache, and/or in the development of de-novo chronic daily headache in post-infectious NDPH [9, 13, 14].

Several studies have measured serum levels of cytokines in patients with primary headache disorders, either making a comparison between patients with primary headache disorders and healthy controls, or between the ictal and interictal periods of migraine. We sought to synthesise the results of these studies to better determine the significance of cytokines in primary headache disorders.

This systematic review and meta-analysis was conducted and reported according to Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) 2020 statement [15]. It is registered with PROSPERO (registration number CRD42023393363). The protocol was not pre-published. No funding was received for this review.

The search resulted in 765 records, of which 38 met inclusion criteria (see Fig. 1). The studies included a total of 2904 participants, of whom 1335 had migraine, 302 had tension-type headache, 42 had cluster headache, and 1225 were healthy controls. No studies including patients with NDPH met inclusion criteria.

Of the 38 studies, 32 included patients with migraine, nine with tension-type headache, two with cluster headache, and none with new daily persistent headache. All studies used IHS criteria, most commonly ICHD-2 (17 studies) and ICHD-3 (11 studies) [17, 18]. Most (26/38) studies were conducted in outpatients. The most commonly measured cytokines were IL-6 (21 studies), TNF-α (20 studies), IL-10 (12 studies), IL-1β (11 studies), and IL-8 (10 studies). Study quality was rated as good (7 or 8 on Newcastle–Ottawa scale) in 31/38 studies. Details of individual studies are shown in Table 1.

We have identified higher levels of IL-6, IL-8 and TNF-α in patients with migraine compared to healthy controls, higher levels of TGF-β and TNF-α in tension-type headache compared to healthy controls, and higher levels of IL-1β during attacks of migraine compared to the interictal period. This corroborates the findings of previous narrative reviews in this area that pro-inflammatory cytokines are typically raised in migraine suggesting the presence of neuroinflammation [57‐60].

A meta-analyses of cytokine levels in migraine has recently been published but included far fewer studies than the current study [61]. It found that IL-1β, IL-6, and TNF-α were all higher in patients with migraine than controls. The discrepancy between the results for IL-1β in that study and the current study is likely because it included only two studies measuring IL-1β, both of which had positive results, whereas we have included seven studies. All studies from this meta-analysis were also included in the current study.

Another systematic review has compiled the results of studies comparing cytokine levels in migraine between the ictal and interictal periods [62]. The authors did not conduct a meta-analysis, but they did observe a lack of a consistent relationship between cytokine levels during the ictal and interictal states. They did find a trend for the pro-inflammatory cytokines TNF-α and IL-6 to be higher, and the anti-inflammatory cytokine IL-10 to be decreased, in the interictal period in migraine compared to healthy controls. A study in experimentally induced migraine found that the anti-inflammatory cytokine IL-4 was downregulated during attacks, along with intercellular adhesion molecule 1, suggesting that these proteins are involved in the pathway of nitric oxide stimulated (and potentially spontaneous) migraine attacks [63, 64].

To the best of our knowledge, a systematic review or meta-analysis has not previously been used to assess cytokines in tension-type headache, cluster headache, or new daily persistent headache. Our finding of increased TNF-α in tension-type headache, similarly to migraine, may suggest either an overlap in pathophysiology between migraine and tension-type headache, or it may be a non-specific finding secondary to the chronic daily headache disorder. TGF-β, which we also found to be raised in tension-type headache is usually considered an anti-inflammatory cytokine and was the only anti-inflammatory cytokine we found to be raised in any primary headache disorder. This result should be interpreted with caution as the analysis only included two studies, however it is possible that TGF-β is elevated as a response to pain, or as a compensatory response to the elevation of one or more of the proinflammatory cytokines. Cytokines have only been compared to healthy controls in a few small studies of cluster headache. Neuroimmunological mechanisms of cluster headache have been previously proposed but require further supporting evidence [65]. Cytokines have not been compared to healthy controls in any studies of NDPH. NDPH is a primary headache disorder which often has a post-infectious onset and since its first description has been hypothesised to have an immune basis [14]. Studies are required to identify whether serum cytokine levels are altered in NDPH (especially those with a post-infectious onset) in comparison to controls and patients with chronic migraine.

Migraine is not thought to be a classical inflammatory disease, and classical clinical symptoms of inflammation or blood or cerebrospinal fluid inflammatory markers are not found. However, the trend for pro-inflammatory cytokines to be higher in patients with migraine suggests that neuroinflammation mediated by cytokines could be involved in its pathophysiology. There is human and animal evidence that the pro-inflammatory cytokines IL-1β, IL-6, and TNF-α are involved in both the initiation and persistence of pain by their direct effects on nociceptive sensory neurons, and central sensitisation [5]. The presence of neuroinflammation in migraine is supported by a neuroimaging study using PET/MRI imaging with [¹¹C]PBR28 ligand (a marker of glial activation) in patients with migraine and showed increased tracer uptake in the thalamus, primary/secondary somatosensory cortices, and insular cortices compared to controls [66]. A second study using similar methodology found increased tracer uptake in the meninges and occipital parameningeal tissues in patients’ migraine with visual aura, compared to both healthy controls and those with lower back pain [67]. The authors hypothesized that meningeal inflammation may be related to cortical spreading depression which initiates migraine with aura.

A pathway linking cortical spreading depression with trigeminovascular system activation has been identified via the neuronal channel Panx1, the activation of which stimulates the production of IL-1β [58, 68]. This corresponds with our finding that IL-1β was the cytokine which was consistently raised during the ictal period of migraine. Calcitonin gene-related peptide (CGRP) is present in both peripheral trigeminal neurons and central neurons, is released upon activation of the trigeminovascular system, and CGRP blocking drugs are effective in the treatment of migraine. A COX-2 dependent pathway has been identified whereby IL-1β can induce CGRP release in trigeminal ganglia neurons, which can be blocked by indomethacin [69]. CGRP is thought to induce sterile “neurogenic inflammation” in migraine, which could further induce neuroinflammation via production of inflammatory cytokines [13, 70]. Pre-clinical studies have shown that CGRP triggers the release of cytokines from T cells [71, 72]. In patients with migraine CGRP levels have been shown to highly correlate (r = 0.94) with IL-6 levels [50].

It is important to recognise that none of the studies which have measured cytokines in primary headache disorders have been longitudinal, and they did not recruit patients prior to the onset of the headache disorder. Therefore, it is possible that the higher levels of cytokines found may be secondary to chronic pain, rather than part of the biology of the headache disorder itself. There is a large literature on the possible role of cytokines in pain disorders such as fibromyalgia [73], and psychiatric disorders, particularly depression [74], where cytokine profiles appear similar to what has been found in the headache literature, suggesting they could be a non-specific biomarkers of chronic pain or chronic stress. Alternatively, they could help explain the known association of primary headache disorders with depression and other chronic pain conditions such as fibromyalgia [75, 76].

Generally, studies of cytokines in primary headache disorder have matched patient groups by age and sex, but they have not been matched by headache frequency, severity, duration, or disability levels; or used these factors as covariates when the results are analysed. A few studies have compared cytokine levels between patients with chronic (headache on at least 15 days per month) and episodic (headache on fewer than 15 days per month) headache disorders. These have found higher IL-6 levels in chronic than episodic tension-type headache [34], higher TNF-α in chronic than episodic migraine [48, 53], and higher IL-6 and CGRP in chronic than episodic migraine [53]. These studies suggest a correlation between headache frequency and higher proinflammatory cytokine levels.

A limitation of all studies measuring peripheral cytokine levels is that the activity of cytokines is predominantly paracrine (local) rather than endocrine, therefore it is possible that measuring peripherally circulating cytokines may not be reflective of their likely site of action in headache disorders either in the brain or trigeminal afferents. For this reason, one study has measured cytokine levels in jugular venous blood during migraine attacks. This study did find similar results to those studies which have investigated peripheral cytokines—an increase in proinflammatory cytokines including IL-6 and TNF-α during the attack compared to baseline [30]. Cytokine levels have also been measured in the cerebrospinal fluid (CSF) of patients with primary headache disorders, but in too few studies to include in the current systematic review and meta-analysis. A small study of patients with NDPH and chronic migraine found that TNF-α levels in the CSF were above the normal range in the majority of patients with both NDPH and chronic migraine, but were in the normal range in most patients in the serum [77]. A CSF study in patients with migraine and tension-type headache found that IL-1ra, Monocyte Chemoattractant Protein-1 (MCP-1), and TGF-β1 were higher in the CSF of patients with both episodic tension-type headache and migraine without aura, compared to controls [78].

A limitation of all cytokine studies is that there are a multitude of factors which can affect cytokine levels, including time of day the blood is taken, site blood is taken from, speed of analysis, presence of comorbidities, medications being taken, and nutritional status of the patient. This means that cytokines are unlikely to be helpful as diagnostic biomarkers, however they may still prove helpful in determining prognosis, or influencing response to treatment. Cytokine antagonists and monoclonal antibodies against cytokines or their receptors are in clinical use for autoimmune disorders. To the best of our knowledge there are no case reports or anecdotal evidence of monoclonal antibodies targeting TNF-a, IL-6, or IL-8 improving primary headache disorders, but they have not been trialled specifically for this purpose.

The proinflammatory cytokines IL-6, TNF-α, and IL-8 are higher in patients with migraine than healthy controls, and IL-1β levels are raised during migraine attacks. This suggests that they may be involved in the pathophysiology of migraine. Prospective studies are required to determine causality, and to determine whether cytokines are useful biomarkers in differentiating different subtypes of headache disorders, determining prognosis, or influencing treatment response.