|
|
|
| Predictive value of buffer coefficient in malignant middle cerebral artery infarction |
| WU Lin1,2 LIU Qingjun1,2 ZHAO Libo1,2 TAN Qing1,2 WEI Jing1,2 ZHAO Rui1,2 ZHOU Zhenhua3 LI Xiaobo4 |
1.Department of Neurology, Yongchuan Hospital Affiliated to Chongqing Medical University, Chongqing 402160, China;
2.Chongqing Key Laboratory of Cerebrovascular Disease Research, Chongqing 402160, China;
3.Department of Neurology, the Third Military Medical University Southwest Hospital, Chongqing 400000, China;
4.Department of Outpatient,Coal Occupational Disease Hospital of Chongqing, Chongqing 402160, China |
|
|
|
Abstract Objective To investigate the predictive value of buffer coefficient in malignant middle cerebral artery infarction (MMI). Methods Clinical data of 131 patients with internal carotid or middle cerebral artery infarction treated to Yongchuan Hospital Affiliated to Chongqing Medical University from January 2017 to August 2020 were retrospectively analyzed. According to whether they had progressed of MMI, the patients were divided into malignant group (53 cases) and non-malignant group (78 cases). The clinical and imaging data of two groups were analyzed. Results Cerebral infarction volume and buffer coefficient in malignant group were larger than those in non-malignant group, while buffer volume was smaller than that in non-malignant group, and the differences were statistically significant(P < 0.05). Cerebral infarction volume and buffer coefficient were risk factors for MMI (OR > 1,P < 0.05), while buffer volume was a protective factor (OR < 1,P < 0.05). The area under curve predicted by buffer coefficient was 0.965, the cut-off value was 2.25, the sensitivity was 87%, and the specificity was 95%. Conclusion Buffer coefficient is better than the cerebral infarction volume or buffer volume to predict the occurrence of MMI, which has certain reference value for the judgment of the condition of middle cerebral artery infarction patients and the choice of treatment plan.
|
|
|
|
|
|
1] GBD 2016 Causes of Death Collaborators. Global,regional,and national age-sex specific mortality for 264 causes of death,1980–2016:a systematic analysis for the Global Burden of Disease Study 2016 [J]. Lancet,2017,390(10100):1151-1210.
[2] Wen X,Li Y,He X,et al. Prediction of Malignant Acute Middle Cerebral Artery Infarction via Computed Tomography Radiomics [J]. Front Neurosci,2020,14:708.
[3] Heiss WD. Malignant MCA Infarction:Pathophysiology and Imaging for Early Diagnosis and Management Decisions [J]. Cerebrovasc Dis,2016,41(1/2):1-7.
[4] Vahedi K,Hofmeijer J,Juettler E,et al. Early decompressive surgery in malignant infarction of the middle cerebral artery:a pooled analysis of three randomised controlled trials [J]. Lancet Neurol,2007,6(3):215-222.
[5] Juttler E,Unterberg A,Woitzik J,et al. Hemicraniectomy in older patients with extensive middle-cerebral-artery stroke [J]. N Engl J Med,2014,370(12):1091-1100.
[6] Kauw F,Bennink E,de Jong HWAM,et al. Intracranial Cerebrospinal Fluid Volume as a Predictor of Malignant Middle Cerebral Artery Infarction [J]. Stroke,2019,50(6):STROKEAHA119024882.
[7] Minnerup J,Wersching H,Ringelstein EB,et al. Prediction of malignant middle cerebral artery infarction using computed tomography-based intracranial volume reserve measurements [J]. Stroke,2011,42(12):3403-3409.
[8] Lee SH,Oh CW,Han JH,et al. The effect of brain atrophy on outcome after a large cerebral infarction [J]. J Neurol Neurosurg Psychiatry,2010,81(12):1316-1321.
[9] Park J,Goh DH,Sung JK,et al. Timely assessment of infarct volume and brain atrophy in acute hemispheric infarction for early surgical decompression:strict cutoff criteria with high specificity [J]. Acta Neurochir (Wien),2012,154(1):79-85.
[10] Beck C,Kruetzelmann A,Forkert ND,et al. A simple brain atrophy measure improves the prediction of malignant middle cerebral artery infarction by acute DWI lesion volume [J]. J Neurol,2014,261(6):1097-1103.
[11] Du X,Liu Q,Li Q,et al. Prognostic value of cerebral infarction coefficient in patients with massive cerebral infarction [J]. Clin Neurol Neurosurg,2020,196:106009.
[12] Das S,Mitchell P,Ross N,et al. Decompressive Hemicraniectomy in the Treatment of Malignant Middle Cerebral Artery Infarction:A Meta-Analysis [J]. World Neurosurg,2019,123:8-16.
[13] Wei H,Jia FM,Yin HX,et al. Decompressive hemicraniectomy versus medical treatment of malignant middle cerebral artery infarction:a systematic review and meta-analysis [J]. Biosci Rep,2020,40(1):BSR20191448.
[14] Shah A,Almenawer S,Hawryluk G. Timing of Decompressive Craniectomy for Ischemic Stroke and Traumatic Brain Injury:A Review [J]. Front Neurol,2019,10:11.
[15] Wu S,Yuan R,Wang Y,et al. Early Prediction of Malignant Brain Edema After Ischemic Stroke [J]. Stroke,2018,49(12):2918-2927.
[16] Alshoabi S,Alnajmani R,Shamsuddin M,et al. Early signs of middle cerebral artery infarction on multidetector computed tomography:Review of 20 cases [J]. Brain Circ,2019,5(1):27-31.
[17] Chao SP,Chen CY,Tsai FY,et al. Predicting Mortality in Patients With “Malignant” Middle Cerebral Artery Infarction Using Susceptibility-Weighted Magnetic Resonance Imaging:Preliminary Findings [J]. Medicine(Baltimore),2016,95(8):e2781.
[18] Oppenheim C,Samson Y,Mana?觙 R,et al. Prediction of Malignant Middle Cerebral Artery Infarction by Diffusion-Weighted Imaging [J]. Stroke,2000,31(9):2175-2181.
[19] Goto Y,Kumura E,Watabe T,et al. Prediction of Malignant Middle Cerebral Artery Infarction in Elderly Patients [J]. J Stroke Cerebrovasc Dis,2016,25(6):1389-1395.
[20] Casolla B,Kuchcinski G,Kyheng M,et al. Infarct Volume Before Hemicraniectomy in Large Middle Cerebral Artery Infarcts Poorly Predicts Catastrophic Outcome [J]. Stroke,2020,51(8):2404-2410.
[21] Thomalla G,Hartmann F,Juettler E,et al. Prediction of malignant middle cerebral artery infarction by magnetic resonance imaging within 6 hours of symptom onset:A prospective multicenter observational study [J]. Ann Neurol,2010,68(4):435-445.
[22] Ghione E,Bergsland N,Dwyer MG,et al. Aging and Brain Atrophy in Multiple Sclerosis [J]. J Neuroimaging,2019, 29(4):527-535.
[23] Chrzan R,Gleń A,Bryll A,et al. Computed Tomography Assessment of Brain Atrophy in Centenarians [J]. Int J Environ Res Public Health,2019,16(19):3659.
[24] Butzkueven H,Kolbe SC,Jolley DJ,et al. Validation of linear cerebral atrophy markers in multiple sclerosis [J]. J Clin Neurosci,2008,15(2):130-137.
[25] Vagal A,Wintermark M,Nael K,et al. Automated CT perfusion imaging for acute ischemic stroke:Pearls and pitfalls for real-world use [J]. Neurology,2019,93(20):888-898. |
|
|
|
