Research progress in magnetic resonance imaging of chronic migraine
RONG Qianlan1 LIU Lu2 FANG Jinxu1 LI Bin2
1.College of Acupuncture and Massage, Changchun University of Chinese Medicine, Jilin Province, Changchun 130117, China;
2.Beijing Key Laboratory of Acupuncture and Moxibustion Neuroregulation Acupuncture Center, Beijing Hospital of Traditional Chinese Medicine Affiliated to Capital Medical University, Beijing 100010, China
Abstract:Chronic migraine is a disabling neurological disease that causes severe living burden on patients. In recent years,to elucidate the pathogenesis of chronic migraine, more and more studies have been conducted on the pathogenesis. Structural magnetic resonance imaging and functional magnetic resonance imaging with its non-invasive advantages accepted by many researchers, in the disease research has made a breakthrough. Related studies found that chronic migraine patients in the brain pain-related brain abnormalities, including white matter microstructure destruction, cortical layer thickness thinning, gray matter, brain volume, and functional network changes, these may be related to the occurrence and chronicity of migraine. This paper observes the relevant studies on structural magnetic resonance imaging and functional magnetic resonance imaging of chronic migraine in recent 5 years, and summarizes the key contents to provide scientific basis for the elaboration of the mechanism, clinical diagnosis, and efficacy evaluation of the disease.
戎茜兰1 刘璐2 方金旭1 李彬2. 慢性偏头痛的磁共振成像研究进展[J]. 中国医药导报, 2023, 20(10): 37-41.
RONG Qianlan1 LIU Lu2 FANG Jinxu1 LI Bin2. Research progress in magnetic resonance imaging of chronic migraine. 中国医药导报, 2023, 20(10): 37-41.
[1] Ashina M,Katsarava Z,Do TP,et al. Migraine:epidemiology and systems of care [J]. Lancet,2021,397(suppl 3):1485- 1495.
[2] Cooper C. Global,regional,and national,prevalence,and years lived with disability for 328 diseases and injuries for 195 countries,1990-2016:a systematic analysis for the Global Burden of Disease Study 2016 [J]. Lancet,2017,390(10100):1211-1259.
[3] Pescador Ruschel MA,De Jesus O. Migraine Headache [M]. In:StatPearls. Treasure Island(FL):StatPearls Publishing,August 30,2021.
[4] Liu J,Lan L,Li G,et al. Migraine-related gray matter and white matter changes at a 1-year follow-up evaluation [J]. J Pain,2013,14(12):1703-1708.
[5] Neeb L,Bastian K,Villringer K,et al. No Microstructural White Matter Alterations in Chronic and Episodic Migraineurs:A Case-Control Diffusion Tensor Magnetic Resonance Imaging Study [J]. Headache,2015,55(2):241-251.
[6] Coppola G,Di Renzo A,Tinelli E,et al. Patients with chronic migraine without history of medication overuse are characterized by a peculiar white matter fiber bundle profile [J]. J Headache Pain,2020,21(1):92.
[7] Henssen D,Kluin SJP,Kleerebezem J,et al. White matter changes in the trigeminal spinal tract in chronic migraineurs: an ex vivo study combining ultra-high-field diffusion tensor imaging and polarized light imaging microscopy [J]. Pain,2022,163(4):779-785.
[8] Planchuelo-Gómez Á,García-Azorín D,Guerrero ÁL,et al. White matter changes in chronic and episodic migraine: A diffusion tensor imaging study [J]. J Headache Pain,2020,21(1):1.
[9] Planchuelo-Gómez Á,García-Azorín D,Guerrero ÁL,et al. Alternative Microstructural Measures to Complement Diffusion Tensor Imaging in Migraine Studies with Standard MRI Acquisition [J]. Brain Sci,2020,10(10):711.
[10] Wieshmann UC,Clark CA,Symms MR,et al. Reduced anisotropy of water diffusion in structural cerebral abnormalities demonstrated with diffusion tensor imaging [J]. Magn Reson Imaging,1999,17(9):1269-1274.
[11] Lai TH,Chou KH,Fuh JL,et al. Gray matter changes related to medication overuse in patients with chronic migraine [J]. Cephalalgia,2016,36(14):1324-1333.
[12] Neeb L,Ba Stian K,Villringer K,et al. Structural Gray Matter Alterations in Chronic Migraine: Implications for a Progressive Disease? [J]. Headache,2017,57(3):400- 416.
[13] Coppola G,Petolicchio B,Renzo AD,et al. Cerebral gray matter volume in patients with chronic migraine: correlations with clinical features [J]. J Headache Pain,2017,18(1):115.
[14] Yu Y,Zhao H,Dai L,et al. Headache frequency associates with brain microstructure changes in patients with migraine without aura [J]. Brain Imaging and Behavior,2021,15(1):60-67.
[15] Chen Z,Chen X,Liu M,et al. Volume expansion of periaqueductal gray in episodic migraine:a pilot MRI structural imaging study [J]. J Headache Pain,2017,18(1):83.
[16] Bilgi?觭 B,Kocaman G,Arslan AB,et al. Volumetric differences suggest involvement of cerebellum and brainstem in chronic migraine [J]. Cephalalgia,2016,36(4):301-308.
[17] Chen Z,Chen X,Liu M,et al. Volume of Hypothalamus as a Diagnostic Biomarker of Chronic Migraine [J]. Front Neurol,2019,10:606.
[18] Chen XY,Chen ZY,Dong Z,et al. Regional volume changes of the brain in migraine chronification [J]. Neural Regen Res,2020,15(9):1701-1708.
[19] Woldeamanuel YW,DeSouza DD,Sanjanwala BM,et al.Clinical Features Contributing to Cortical Thickness Changes in Chronic Migraine - A Pilot Study [J]. Headache,2019, 59(2):180-191.
[20] Lai KL,Niddam DM,Fuh JL,et al. Cortical morphological changes in chronic migraine in a Taiwanese cohort: Surface- and voxel-based analyses [J]. Cephalalgia,2020,40(6):575-585.
[21] Schwedt TJ,Schlaggar BL,Mar S,et al. Atypical resting- state functional connectivity of affective pain regions in chronic migraine [J]. Headache,2013,53(5):737-751.
[22] Lee MJ,Park BY,Cho S,et al. Increased connectivity of pain matrix in chronic migraine:a resting-state functional MRI study [J]. J Headache Pain,2019,20(1):29.
[23] Coppola G,Di Renzo A,Petolicchio B,et al. Aberrant interactions of cortical networks in chronic migraine:A resting-state fMRI study [J]. Neurology,2019,92(22):e2550- e2558.
[24] Androulakis XM,Krebs K,Peterlin BL,et al. Modulation of intrinsic resting-state fMRI networks in women with chronic migraine [J]. Neurology,2017,89(2):163-169.
[25] Han SM,Kim KM,Cho SJ,et al. Prevalence and characteristics of cutaneous allodynia in probable migraine [J]. Sci Rep,2021,11(1):2467.
[26] Androulakis XM,Rorden C,Peterlin BL,et al. Modulation of salience network intranetwork resting state functional connectivity in women with chronic migraine [J]. Cephalalgia,2018,38(11):1731-1741.
[27] Liu X,Chen W,Hou H,et al. Decreased functional connectivity between the dorsal anterior cingulate cortex and lingual gyrus in Alzheimer’s disease patients with depression [J]. Behav Brain Res,2017,326:132-138.
[28] Coppola G,Di Renzo A,Petolicchio B,et al. Increased neural connectivity between the hypothalamus and cortical resting-state functional networks in chronic migraine [J]. J Neurol,2020,267(1):185-191.
[29] Zou Y,Tang W,Qiao X,et al. Aberrant modulations of static functional connectivity and dynamic functional network connectivity in chronic migraine [J]. Quant Imaging Med Surg,2021,11(6):2253-2264.
[30] Chen Z,Chen X,Liu M,et al. Altered functional connectivity of the marginal division in migraine:a resting-state fMRI study [J]. J Headache Pain,2016,17(1):89.
[31] Dai L,Yu Y,Zhao H,et al. Altered local and distant functional connectivity density in chronic migraine: a resting-state functional MRI study [J]. Neuroradiology,2021, 63(4):555-562.
[32] Schulte LH,Allers A,May A. Hypothalamus as a mediator of chronic migraine:Evidence from high-resolution fMRI [J]. Neurology,2017,88(21):2011-2016.
[33] Bogdanov VB,Bogdanova OV,Viganò A,et al. Increased cerebral responses to salient transitions between alternating stimuli in chronic migraine with medication overuse headache and during migraine attacks [J]. Cephalalgia,2019,39(8):988-999.
[34] Schulte LH,Allers A,May A. Visual stimulation leads to activation of the nociceptive trigeminal nucleus in chronic migraine [J]. Neurology,2018,90(22):e1973-e1978.
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