Gray matter alteration in medication overuse headache: a coordinates-based activation likelihood estimation meta-analysis.

Medication overuse headache (MOH) is a prevalent secondary headache, bringing heavy economic burden and neuropsychological damage. Neuroimaging studies on the disease reported divergent results. To merge the reported neuroimaging alterations in MOH patients and explore a pathophysiological mechanism of this disorder. A meta-analytic activation likelihood estimation (ALE) analysis method was used. We systematically searched English and Chinese databases for both morphological and functional neuroimaging studies published before Nov 18, 2021. Reported altered brain regions and the stereotactic coordinates of their peaks were extracted and pooled by GingerALE using Gaussian probability distribution into brain maps, illustrating converged regions of alteration among studies. We identified 927 articles, of which five studies on gray matter changes, using voxel-based morphometry (VBM) were eventually included for ALE analysis, with 344 subjects and 54 coordinates put into GingerALE. No functional magnetic resonance imaging (fMRI) or positron emission topography (PET) studies were included for pooling. Compared with healthy controls (HCs), MOH featured increased gray matter density in midbrain, striatum, cingulate, inferior parietal cortex and cerebellum (P < 0.001 uncorrected), whereas decreased gray matter density in orbitofrontal cortex (P < 0.05, family-wise error), frontal, insular and parietal cortices (P < 0.001 uncorrected). Withdrawal of analgesics led to decreased gray matter density in superior temporal gyrus, cuneus, midbrain and cerebellum (P < 0.001 uncorrected). This meta-analysis confirmed that medication overuse headache is associated with morphologic alteration in the reward system, the prefrontal cortex and a reversible modification in the pain network. Further functional imaging paradigms and longitudinal studies are required for a more definite conclusion and a causal mechanism.

Medication overuse headache: an overview of clinical aspects, mechanisms, and treatments.

INTRODUCTION: Medication-overuse headache (MOH) is a common debilitating neurological disorder, with a prevalence of 1% to 7% in general population. It affects more than 60 million people worldwide and provokes substantial burden. Despite that, most practitioners don't know MOH. This review aims at presenting MOH clinical features, pathophysiology insights, and recent knowledge and guidance regarding treatments. AREAS COVERED: A literature search in the major medical databases including the terms 'medication overuse headache,' 'chronic daily headache,' 'chronic migraine,' 'symptomatic medication overuse' and others, published between 1990 and 2020, was carried out. EXPERT COMMENTARY: Primary headache sufferers such as migraineurs and tension-type headache patients may increase the headache frequency and induce the transition from episodic to chronic forms, as well as develop MOH, in the presence of medication overuse. There is evidence of structural and functional changes in some areas of the brain, which may identify those likely to respond or not to treatments. Despite the geographical differences and lack of consensus regarding approaches, to educate the patients about reducing medication intake, to withdraw overused medications and to start prophylaxis in some sufferers are crucial steps. Emerging treatments as monoclonal antibodies to migraine may result in better adherence and tolerability profiles as well as outcomes.

Maladaptive activation of Nav1.9 channels by nitric oxide causes triptan-induced medication overuse headache.

Medication-overuse headaches (MOH) occur with both over-the-counter and pain-relief medicines, including paracetamol, opioids and combination analgesics. The mechanisms that lead to MOH are still uncertain. Here, we show that abnormal activation of Nav1.9 channels by Nitric Oxide (NO) is responsible for MOH induced by triptan migraine medicine. Deletion of the Scn11a gene in MOH mice abrogates NO-mediated symptoms, including cephalic and extracephalic allodynia, photophobia and phonophobia. NO strongly activates Nav1.9 in dural afferent neurons from MOH but not normal mice. Abnormal activation of Nav1.9 triggers CGRP secretion, causing artery dilatation and degranulation of mast cells. In turn, released mast cell mediators potentiates Nav1.9 in meningeal nociceptors, exacerbating inflammation and pain signal. Analysis of signaling networks indicates that PKA is downregulated in trigeminal neurons from MOH mice, relieving its inhibitory action on NO-Nav1.9 coupling. Thus, anomalous activation of Nav1.9 channels by NO, as a result of chronic medication, promotes MOH.

Volume Gain of Brainstem on Medication-Overuse Headache Using Voxel-Based Morphometry.

BACKGROUND: Histopathology identified the anatomical and molecular abnormalities of brainstem nuclei in migraine patients. However, the exact whole brainstem structural changes in vivo have not yet been identified in medication-overuse headache (MOH) transformed from migraine. The aim of this study was to investigate the regional volume changes over the whole brainstem in the MOH patients using voxel-based morphometry (VBM) in vivo. METHODS: High-resolution three-dimensional structural images were obtained using a 3.0-Tesla magnetic resonance system from 36 MOH patients and 32 normal controls (NCs) who were consecutively recruited from the International Headache Center, Chinese People's Liberation Army General Hospital, from March 2013 to June 2016. VBM was used to assess the brainstem structural alteration in the MOH patients, and voxel-wise correlation was performed to evaluate the relationship with the clinical characteristics. RESULTS: The brainstem region with increased volume located in the left ventrolateral periaqueductal gray (MNI coordinate: -1, -33, -8), ventral tegmental area (MNI coordinate: 0, -22, -12), bilateral substantia nigra (MNI coordinate: -8, -16, -12, 9, -16, -12), and trigeminal root entry zone (MNI coordinate: -19, -29, -31; 19, -32, -29) in MOH patients compared with NCs. The headache visual analog scale score was positively related with the left rostral ventromedial medulla (RVM) (MNI coordinate: -1, -37, -56; cluster size: 20; r = 0.602) in the MOH patients. CONCLUSIONS: The regional volume gain of brainstem could underlie the neuromechanism of impaired ascending and descending pathway in the MOH patients, and the left RVM volume alteration could imply the impaired tolerance of nociceptive pain input and could be used to assess the headache disability in the MOH patients.

Morphometric changes over the whole brain in caffeine-containing combination-analgesic-overuse headache.

Objective To investigate brain morphometric changes in medication-overuse headache with excessive intake of caffeine-containing combination analgesics. Materials and methods We recruited 32 medication-overuse headache patients overusing caffeine-containing combination analgesics and 26 normal controls with matched sex and age. Magnetic resonance T1-weighted images were processed by automatic volume algorithm of brain regions over the whole brain according to the neuromorphometrics template. We explored the volume differences between groups and correlation with clinical variables. Results Medication-overuse headache patients demonstrated decreased volume in cerebellum, optic chiasm, and increased volume in right lateral orbital gyrus, left calcarine, bilateral middle occipital gyrus, right superior parietal lobe, and right temporal transverse gyrus compared with normal controls. The increased volume was primarily contributed by patients of lower headache frequency (10-20 days/month) and with no psychological comorbidities. In regression analyses, the volume of bilateral middle occipital gyrus had negative association with migraine duration, and the volume of right lateral orbital gyrus and right superior parietal lobe was negatively correlated with number of medications per month. Conclusions Volume changes of brain regions involved in affective and cognitive processing, visual and auditory perception, and pain sensory/discrimination suggested a particular role of those regions in the pathogenesis of medication-overuse headache overusing caffeine-containing combination analgesics. Morphometric changes in multiple visual processing areas and volume gain in lower headache frequency and less anxiety and depression may be specific features related to overusing caffeine-containing combination analgesics.

Trigeminal ganglion transcriptome analysis in 2 rat models of medication-overuse headache reveals coherent and widespread induction of pronociceptive gene expression patterns.

We attempted to gather information on the pathogenesis of medication-overuse headache, as well as on the neurochemical mechanisms through which symptomatic medication overuse concurs to headache chronification. Transcriptional profiles were therefore evaluated as an index of the homeostasis of the trigeminovascular system in the trigeminal ganglion of female rats exposed for 1 month to daily oral doses of eletriptan or indomethacin. We report that both drug treatments change trigeminal ganglion gene expression to a similar extend. Of note, qualitative transcriptomic analysis shows that eletriptan and indomethacin prompt nearly identical, increased expression of genes coding for proteins involved in migraine pathogenesis and central pain sensitization such as neuropeptides, their cognate receptors, prostanoid, and nitric oxide-synthesizing enzymes, as well as TRP channels. These genes, however, were not affected in thoracic dorsal root ganglia. Of note, lowering of orofacial nociceptive thresholds, as well as forepaw hyperalgesia occurred in both indomethacin- and eletriptan-treated rats. Our study reveals that chronic rat exposure to 2 acute headache medications with completely different mechanisms of action prompts pain sensitization with highly similar induction of pronociceptive genes selectively within the trigeminal ganglion. Data further our understanding of medication-overuse headache pathogenesis and provide hints for specific mechanism-based treatment options.

Lower hippocampal subfields volume in relation to anxiety in medication-overuse headache.

Background Hippocampus (HIP) was an important limbic structure, and concurrent emotion disorders may occur in medication-overuse headache patients. The aim of this study is to investigate altered HIP and HIP subfields volume in relation with the anxiety in medication-overuse headache patients using a state-of-the-art hippocampal segment method. Results The current study presented that a significant lower HIP and HIP subfields volume were identified in medication-overuse headache compared with that in normal controls except right HIP tail, bilateral parasubiculums, and HIP fissure. The left HIP and right subiculum presented negative correlation with headache variables, and the right subiculum, Cornu Ammonis 4, granule cell layer of dentate gyrus, bilateral Cornu Ammonis 1, molecular layer, and whole HIP presented negative correlation with Hamilton Anxiety Scale score, which were further confirmed by the linear regression analysis with the exclusion of psychological variables and headache variables, respectively. Conclusions The lower HIP and HIP subfields volume were identified in medication-overuse headache patients, and negatively related with anxiety condition. The potential mechanism for the comorbidity medication-overuse headache and anxiety might be interpreted as the reciprocal causation relationship and co-occurrence relationship.

Pain modulation is affected differently in medication-overuse headache and chronic myofascial pain - A multimodal MRI study.

Background Neuroimaging studies revealed structural and functional changes in medication-overuse headache (MOH), but it remains unclear whether similar changes could be observed in other chronic pain disorders. Methods In this cross-sectional study, we investigated functional connectivity (FC) with resting-state functional magnetic resonance imaging (fMRI) and white matter integrity using diffusion tensor imaging (DTI) to measure fractional anisotropy (FA) and mean diffusivity (MD) in patients with MOH ( N = 12) relative to two control groups: patients with chronic myofascial pain (MYO; N = 11) and healthy controls (CN; N = 16). Results In a data-driven approach we found hypoconnectivity in the fronto-parietal attention network in both pain groups relative to CN (i.e. MOH < CN and MYO < CN). In contrast, hyperconnectivity in the saliency network (SN) was detected only in MOH, which correlated with FA in the insula. In a seed-based analysis we investigated FC between the periaqueductal grey (PAG) and all other brain regions. In addition to overlapping hyperconnectivity seen in patient groups (relative to CN), MOH had a distinct connectivity pattern with lower FC to parieto-occipital regions and higher FC to orbitofrontal regions compared to controls. FA and MD abnormalities were mostly observed in MOH, involving the insula. Conclusions Hyperconnectivity within the SN along with associated white matter changes therein suggest a particular role of this network in MOH. In addition, abnormal connectivity between the PAG and other pain modulatory (frontal) regions in MOH are consistent with dysfunctional central pain control.

Nucleus accumbens functional connectivity discriminates medication-overuse headache.

Medication-overuse headache (MOH) is a secondary form of headache related to the overuse of triptans, analgesics and other acute headache medications. It is believed that MOH and substance addiction share some similar pathophysiological mechanisms. In this study we examined the whole brain resting state functional connectivity of the dorsal and ventral striatum in 30 patients (15 MOH and 15 non-MOH patients) to investigate if classification algorithms can successfully discriminate between MOH and non-MOH patients on the basis of the spatial pattern of resting state functional connectivity of the dorsal and ventral striatal region of interest. Our results indicated that both nucleus accumbens and dorsal rostral putamen functional connectivity could discriminate between MOH and non-MOH patients, thereby providing possible support to two interpretations. First, that MOH patients show altered reward functionality in line with drug abusers (alterations in functional connectivity of the nucleus accumbens). Second, that MOH patients show inability to break habitual behavior (alterations in functional connectivity of the dorsal striatum). In conclusion, our data showed that MOH patients were characterized by an altered functional connectivity of motivational circuits at rest. These differences could permit the blind discrimination between the two conditions using classification algorithms. Considered overall, our findings might contribute to the development of novel diagnostic measures.

HDAC3 role in medication consumption in medication overuse headache patients: a pilot study.

BACKGROUND: Medication overuse headache (MOH) is a common and debilitating disorder characterized by generation, perpetuation, and persistence of intense chronic migraine, caused by overuse of analgesics, triptans, or other acute headache compounds. It has been suggested that MOH could share some pathogenetic mechanisms with other kinds of drug addiction. In this regard, histone deacetylases 3 (HDAC3) seems to have a role in the memory processes involved in extinction of drug-seeking behavior in animal models. HDAC3 is inhibited by sodium valproate, a drug with proven efficacy in MOH. Recent evidence suggests an involvement of genetic factors in predisposition to medication overuse. RESULTS: In this association study, we sequenced all exons, intron/exon junctions, and 3'-5'UTR regions of HDAC3 in 23 MOH patients to investigate its role in medication overuse. Associations between genotypes with continuous and dichotomous clinical characteristics were tested by multivariate analysis and Fisher's exact test, respectively. Sequencing of HDAC3 revealed six single-nucleotide polymorphisms. The G allele of rs2530223 was significantly associated with the number of acute medications/month used and with the number of days/month in which medications were used (p = 0.006 and p = 0.007, respectively), but neither with headache frequency or intensity. None of the single-nucleotide polymorphisms (SNPs) was associated with clinical characteristics or response to sodium valproate. CONCLUSIONS: HDAC3 could be implicated in excessive medication consumption in MOH patients. Our preliminary findings provide support for the need of further investigation on larger independent samples to confirm and extend the role of HDAC3 in medication overuse headache.

Neuroimaging in Secondary Headache Disorders.

A secondary headache may develop de novo or in patients with a history of primary headaches, and a thorough history and neurological exam often helps to suspect a secondary etiology. The causes of secondary headaches include tumors, vascular etiologies, structural brain disorders, infection, inflammation, and alterations of cerebrospinal fluid pressure dynamics. Computed tomography (CT) is very sensitive for detecting acute hemorrhage but magnetic resonance imaging (MRI) is preferred over a head CT in subacute and non-emergent cases. Obtaining the correct diagnosis may include incorporation of intravenous contrast agents, special imaging sequences, and functional imaging techniques.

Is sinus disease the cause of my headaches? An update on sinus disease and headache.

The interplay between head pain caused by sinus disease and primary headaches is complex. Classification of secondary headaches, attributed to disorders of the nose or paranasal sinuses has been recently updated. New treatments including office- based procedures are emerging for patients with chronic sinusitis. This paper briefly reviews sinus disease and headache.

White matter lesions in chronic migraine with medication overuse headache: a cross-sectional MRI study.

Analgesic overuse often happens to migraine patients, especially chronic migraineurs, and migraine has been demonstrated to be associated with white matter lesions (WMLs). The aim of this study was to investigate the relationship between medication overuse headache (MOH) and WMLs in chronic migraine (CM) patients. Subjects were enrolled and divided into three groups: healthy controls, CM without MOH (CMwoMOH), and CM with MOH (CM-MOH). Most of the CM patients used non-steroidal anti-inflammatory drugs (NSAIDs) as acute headache medications. All the participants underwent magnetic resonance imaging scans and images were obtained for WML evaluation with semiquantitative scales. One hundred and forty-one participants were included, 45 of them for controls, 38 for CMwoMOH, and 58 for CM-MOH. In women, CMwoMOH patients had a higher prevalence of high WML load compared with controls and CM-MOH patients. In men, however, all the study groups showed no differences in the prevalence of high WML load. CMwoMOH women had increased risks of high deep white matter lesion (DWML) load compared with controls, while they had no risks of high periventricular white matter lesion (PVWML) load. CM-MOH women had no risks of high DWML load, but they had reduced risks of high PVWML load. The association of CM-MOH with high WML load in women was not changed when compared with CMwoMOH. Age was independently associated with high WML load among women. These data suggest that MOH caused by NSAIDs is not a risk factor for WMLs. Rather, NSAID overuse probably protects MOH patients from WMLs through anti-inflammatory effects.

Decrease of gray matter volume in the midbrain is associated with treatment response in medication-overuse headache: possible influence of orbitofrontal cortex.

Patients with chronic daily headache and overuse of analgesics, triptans, or other acute headache compounds, are considered to suffer from medication-overuse headache (MOH). This implies that medication overuse is the cause of headache chronification. It remains a key question why only two-thirds of patients with chronic migraine-like headache and overuse of pain medication improve after detoxification, whereas the remainder continue to have chronic headache. In the present longitudinal MRI study, we used voxel-based morphometry to investigate gray matter changes related to medication withdrawal in a group of humans with MOH. As a main result, we found that only patients with significant clinical improvement showed a significant decrease of previously increased gray matter in the midbrain including periaqueductal gray matter and nucleus cuneiformis, whereas patients without improvement did not. Patients without treatment response had less gray matter in the orbitofrontal cortex. Another striking result is the correlation of treatment response with the amount of orbitofrontal gray matter. Thus, we demonstrate adaptive gray matter changes within the pain modulatory system in patients with MOH who responded to detoxification, probably reflecting neuronal plasticity. Decreased gray matter in the orbitofrontal cortex at baseline may be predictive of poor response to treatment.

Grey matter changes associated with medication-overuse headache: correlations with disease related disability and anxiety.

OBJECTIVES: Medication-overuse headache (MOH) is associated with psychiatric comorbidities. Neurobiological similarities to substance dependence have been suggested. This study investigated grey matter changes, focussing on pain and reward systems. METHODS: Using voxel-based morphometry, structural MRIs were compared between 29 patients with both, MOH and migraine, according to International Headache Society criteria, and healthy controls. The Migraine Disability Assessment (MIDAS) score was used. Anxiety and depression were screened for with the Hospital Anxiety and Depression Scale (HADS) and confirmed by a psychiatrist, using the Mini International Neuropsychiatric Interview. RESULTS: Nineteen patients (66%) had a present or past psychiatric disorder, mainly affective (N = 11) and anxiety disorders (N = 8). In all patients a significant increase of grey matter volume (GMV) was found in the periaqueductal grey matter of the midbrain, which correlated positively with the MIDAS and the HADS-anxiety subscale. A GMV increase was found bilaterally in the thalamus, and the ventral striatum. A significant GMV decrease was detected in frontal regions including orbitofrontal cortex, anterior cingulate cortex, the left and right insula, and the precuneus. CONCLUSION: These findings are consistent with dysfunction of antinociceptive systems in MOH, which is influenced by anxiety. Dysfunction of the reward system may be a neurobiological basis for dependence in a subgroup of MOH patients.

Analysis of leukocytes in medication-overuse headache, chronic migraine, and episodic migraine.

OBJECTIVE: To evaluate the number of immune cells in the peripheral blood of medication-overuse headache (MOH), chronic migraine (CM), and migraine without aura (MWA) patients, as well as from controls. BACKGROUND: Migraine has been linked to immunologic disturbances, but the role of the immune system in chronic forms of headache that evolve from migraine has not been studied. Psychiatric co-morbidity has been related to both headache chronification and immunologic alterations. METHODS: This cross-sectional study comprised 68 subjects divided in 4 groups: MOH, CM, MWA, control. Subjects were gender-matched, had no physical co-morbidity, and were taking only acetaminophen. Clinical and psychological data were recorded in a standardized protocol. Samples of peripheral blood for hematological analysis were obtained in the morning during the ictal (MOH, CM, and MWA groups) and interictal periods (MWA group), as well from control group. RESULTS: A higher lymphocyte count was measured in MOH patients relative to the MWA patients (mean ± standard deviation: 2448.7/mm3 ± 775.8 vs. 1859.7/mm3 ± 564.7; P = .027). The numbers of blood lymphocytes for CM and control subjects were 2086.1/mm3 ± 540.5 and 1961.7/mm3 ± 385.6, respectively. Multiple linear regression analysis demonstrated that only MOH and MWA groups remained associated with lymphocyte count (B = 540.7; CI 95%: 55.2-1026.1; P = .03; R2 = 19.2%). Analysis for linearity of variables in the spectrum control/MWA/CM/MOH resulted positive for body mass index (from 23.5 ± 3.25 in controls to 26.5 ± 4.49 in MOH patients; P = .034), scores on Beck Depression Inventory (from 3.29 ± 3.05 to 14.65 ± 11.21; P < 0.001) and Hamilton Anxiety Scale (from 4.29 ± 3.93 to 23.24 ± 11.01; P < 0.001), hemoglobin (from 13.7 ± 0.79 to 14.6 ± 1.31; P = .022), and lymphocyte count (from 1961.7 ± 385.6 to 2448.7 ± 775.8; P = .01), but negative for CD8+ T lymphocytes (from 34.0 ± 8.82 to 30.0 ± 6.64; P = .046). CONCLUSIONS: A higher lymphocyte count in the MOH group relative to the MWA group may indicate a chronic inflammatory state. Several clinical and laboratorial characteristics have a range along a spectrum extending from healthy subjects to patients suffering from chronic forms of migraine.

Fronto-turbinalis sinus expansion and headache.

Headaches of rhinogenic origin illustrate an interesting paradox. Little is known about their pathophysiology, mechanisms, and prevalence; yet, the concept that these headaches are of importance is widely accepted. This article discusses the relationship between fronto-turbinalis sinus expansion and headaches, as well as headache outcomes after surgical approach.

Pearls: headache.

Distinguishing primary headache from secondary headache is the first objective of every new clinical encounter with a patient complaining of headache. The history is king in headache medicine-90% of patients presenting with headache have a primary headache disorder and the examination is normal. The history must be elicited because patients will not always volunteer seminal information. A standard series of questions must be asked of each patient to guide an appropriate diagnostic evaluation and ensure that secondary causes are not overlooked. The second objective, of course, is making the correct diagnosis of the primary headache disorder. Although at first glance this appears obvious and almost patronizing, making the correct diagnosis is often not a priority, nor is it a process that is emphasized in undergraduate and postgraduate training programs. Knowing some simple rules and standard questions will make the process almost fail proof.

Idiopathic hypertrophic pachymeningitis resulting in delayed panhypopituitarism.

OBJECTIVE: To describe an adult man with idiopathic hypertrophic pachymeningitis (IHPM) that progressed to involve the pituitary gland and caused hypopituitarism 6 years after the onset of the first symptom. METHODS: We describe the slow 6-year progression of IHPM in a man being treated with steroids, radiation, and antineoplastic medications and present clinical, pathologic, and imaging data. The pertinent literature is also reviewed. RESULTS: A 35-year-old man who presented with headaches, pain, and sensory loss on the right side of his face had thickened, inflamed dura without granulomas. Initially, the right middle fossa, the lateral wall of the right cavernous sinus, and the tentorium were involved. Results from a dural biopsy specimen were consistent with IHPM. His symptoms were only partially controlled with continuous high-dose steroids, cyclophosphamide, azathioprine, and radiation therapy. IHPM was diagnosed based on findings from an open brain biopsy. Other pathologic causes of inflammatory dural thickening were excluded. Six years after the onset of the first clinical manifestation of IHPM, the patient developed panhypopituitarism. Magnetic resonance imaging showed that the inflammatory process had invaded the pituitary gland. IHPM was confirmed by findings from transsphenoidal biopsy. CONCLUSION: IHPM is a rare disorder characterized by an unexplained inflammatory thickening of the dura at the skull base. The usual clinical symptoms are intractable headache and cranial nerve palsies. Physicians must be aware that IHPM can be slowly progressive despite attempted treatment, and that the disease process can invade the sella with dysfunction of both the anterior and the posterior pituitary gland.

From migraine to chronic daily headache: the biological basis of headache transformation.

Migraine headache carries the potential of transforming into chronic daily headache (CDH) over a period of time. Although several risk factors for migraine progression to CDH have been identified, the biological basis of this transformation is unknown. In this review, the consequences of stressful life events and medication overuse, 2 risk factors associated with the development of CDH, on brain processes involved in headache are examined. The extensive overlap in both neural circuitry and cellular events that occur with stress, medication overuse, and migraine provide insight into potential mechanisms that may lead to CDH. Particular attention is devoted to the effect of stress and medication overuse on peripheral and central neuroimmune interactions that can facilitate pain signaling. These interactions include the degranulation of mast cells in the dura, causing the sensitization of primary afferent neurons, as well as the activation of glial cells in the brain that can lead to central sensitization. It is hypothesized that the biological processes involved in migraine headache are directly impacted by stress, medication overuse, and other risk factors, resulting in a reduced threshold for induction of headache and transformation of episodic migraine to CDH.