|国家科技期刊平台
首页|期刊导航|中国脑血管病杂志|小型颅内动脉瘤破裂发生大量蛛网膜下腔出血及再出血的危险因素分析

小型颅内动脉瘤破裂发生大量蛛网膜下腔出血及再出血的危险因素分析OA北大核心CSTPCD

Analysis of risk factors associated with massive hemorrhage and rebleeding in small intracranial aneurysms

中文摘要英文摘要

目的 分析小型颅内动脉瘤破裂发生大量蛛网膜下腔出血(SAH)和再出血的危险因素.方法 回顾性连续纳入重庆医科大学附属第一医院神经外科2014年7月至2020年1月收治的小型颅内动脉瘤破裂SAH的患者,小型颅内动脉瘤指最大径<5 mm的颅内动脉瘤.收集患者的基线及临床资料,包括年龄、性别、既往史(高血压病、糖尿病、冠心病)、吸烟史、饮酒史、入院格拉斯哥昏迷量表(GCS)评分和Hunt-Hess分级.收集患者影像学资料明确动脉瘤特征[动脉瘤数量(单发、多发)、SAH责任动脉瘤形态(存在子囊、多囊或分叶的动脉瘤为不规则动脉瘤)和位置(前交通动脉、后交通动脉、大脑中动脉、大脑前动脉、颈内动脉和后循环)],根据入院头部CT影像明确SAH的分布情况,使用改良Fisher分级将患者SAH情况分为1~4级,应用Hijdra评分对患者SAH的出血量进行评分.收集患者治疗方式(介入栓塞术、开颅夹闭术).将所有患者通过改良Fisher分级进行分组,1~2级为少量SAH组,3~4级为大量SAH组.比较少量SAH组与大量SAH组患者的基线资料和动脉瘤特征,以改良Fisher分级3~4级为因变量,将基线、临床资料及动脉瘤特征中P<0.1的可能影响SAH出血量的因素作为自变量进行多因素Logistic回归分析,分析小型颅内动脉瘤破裂发生大量SAH的危险因素.将患者术前CT可见的伴或不伴神经功能恶化的新发出血定义为再出血,所有患者以术前是否发生再出血分为再出血组和无再出血组.比较再出血组与无再出血组患者基线及临床资料和动脉瘤特征,以再出血为因变量,在基线、临床资料及动脉瘤特征比较中P<0.1的因素中筛选出自变量进行多因素Logistic回归分析,分析小型颅内动脉瘤发生再出血的危险因素.结果 本研究共纳入363例小型颅内动脉瘤破裂SAH患者,男103例,女260例;年龄25~85岁,平均年龄(55±11)岁.以改良Fisher分级进行分组,大量SAH组198例,少量SAH组165例.与少量SAH组相比,大量SAH组患者年龄更大(P=0.011),男性、合并高血压病、吸烟史比例更高(均P<0.05),入院Hunt-Hess分级Ⅳ~Ⅴ级比例更高(26.3%比2.4%,P<0.01),GCS 评分更低[(13.1±1.8)分比(13.9±0.8)分,P<0.01],Hijdra 评分更高[(19.7±5.4)分比(8.4±2.6)分,P<0.01];大量SAH组和少量SAH组患者动脉瘤数量和责任动脉瘤形态、位置上的差异均无统计学意义(均P>0.05).以术前是否发生再出血分组,再出血组30例,无再出血组333例.与无再出血组相比,再出血组患者合并高血压病比例(83.3%比49.2%,P<0.01)和入院Hunt-Hess分级Ⅳ~Ⅴ级比例更高(43.3%比12.9%,P<0.01),GCS评分更低[12(9,14)分比14(13,14)分,P<0.01],Hijdra 评分更高[18(9,26)分比 14(9,18)分,P=0.024];再出血组与无再出血组患者动脉瘤数量、责任动脉瘤形态、位置的差异均无统计学意义(均P>0.05).介入栓塞术和开颅夹闭术两种手术方式在两种分组方式中的差异均无统计学意义(均P>0.05).分别以改良Fisher分级3~4级和再出血为因变量行多因素Logistic回归分析,结果显示,年龄(OR=1.027,95%CI:1.006~1.049,P=0.012)、高血压病(OR=1.858,95%CI:1.196~2.886,P=0.006)是小型动脉瘤破裂发生大量SAH的独立危险因素,高血压病(OR=3.775,95%CI:1.371~10.391,P=0.010)、较低的 GCS 评分(OR=0.677,95%CI:0.561~0.816,P<0.01)是小型颅内动脉瘤破裂后再出血的独立危险因素.结论 年龄较大、合并高血压病是小型颅内动脉瘤破裂患者发生大量SAH的危险因素.合并高血压病、GCS评分较低是小型颅内动脉瘤破裂后再出血的危险因素.

Objective Analyze the risk factors associated with severe subarachnoid hemorrhage(SAH)and rebleeding in small intracranial aneurysms.Methods From July 2014 to January 2020,patients with SAH caused by small ruptured intracranial aneurysms admitted to the Neurosurgery Department of the First Affiliated Hospital,Chongqing Medical University were retrospectively and continuously included.Small intracranial aneurysms refer to intracranial aneurysms with a maximum diameter of less than 5 mm.Baseline data and clinical data of patients were collected,including age,gender,past history(hypertension,diabetes,coronary heart disease),smoking history,drinking history,admission Glasgow coma scale(GCS)score and Hunt-Hess grade.Patient imaging data were collected to clarify the characteristics of aneurysms,including the number of aneurysms(single or multiple),the shape of SAH responsible aneurysms(irregular aneurysms with subcapsular,polycystic,or lobulated aneurysms),and their location(anterior communicating artery,posterior communicating artery,middle cerebral artery,anterior cerebral artery,internal carotid artery,and posterior circulation).Based on the CT images of the head at admission,the distribution of SAH in patients was determined.The modified Fisher grading system was used to classify SAH into 1-4 levels,and the Hijdra score was used to assess the bleeding volume of SAH in patients.The treatment methods of patients(interventional embolization,clipping)were collected.All patients were grouped according to the modified Fisher classification,with grades 1-2 being the minor SAH group and grades 3-4 being the massive SAH group.Baseline data and clinical data and aneurysm characteristics were compared between minor SAH group and massive SAH group.Multiple Logistic regression analysis was conducted using the modified Fisher grades 3-4 as the dependent variable,and factors with P<0.1 in baseline data that may affect SAH bleeding volume as independent variables,the risk factors associated with the massive SAH in small ruptured intracranial aneurysms were analyzed.New bleeding visible on preoperative CT of the patient,with or without neurological deterioration,is defined as rebleeding.All patients are divided into rebleeding group and non-rebleeding group based on the occurrence of rebleeding.Baseline data and aneurysm characteristics between patients with rebleeding and those without rebleeding were compared.Multivariate Logistic regression analysis was conducted with rebleeding as the dependent variable,and factors with P<0.1 in baseline data and aneurysm characteristics were used as independent variables,the risk factors associated with rebleeding in small aneurysms were analyzed.Results A total of 363 SAH patients with small ruptured aneurysms were included in this study,including 103 males and 260 females;age range from 25 to 85 years old,with an average age of(55±11)years.According to the modified Fisher classification,there were 198 cases in the massive SAH group and 165 cases in the minor SAH group.Compared with patients in the minor SAH group,patients in the massive SAH group were older(P=0.011),with a higher proportion of males,concomitant hypertension,and smoking history(all P<0.05).The proportion of admitted Hunt Hess grade Ⅳ to V was higher(26.3%vs.2.4%,P<0.01),the GCS score was lower([13.1±1.8]points vs.[13.9±0.8]points,P<0.01),and the Hijdra score was higher([19.7±5.4]points vs.[8.4±2.6]points,P<0.01).There was no statistically significant difference in the number of aneurysms and the location and morphology of responsible aneurysms between the massive and minor SAH groups(all P>0.05).According to whether patients experienced rebleeding before surgery,there were 30 cases in the rebleeding group and 333 cases in the non-rebleeding group.Compared with the non-rebleeding group,patients in the rebleeding group had a higher proportion of concomitant hypertension(83.3%vs.49.2%,P<0.01)and a higher proportion of admitted Hunt Hess grades Ⅳ-V(43.3%vs.12.9%,P<0.01),lower GCS scores(12[9,14]points vs.14[13,14]points,P<0.01),and higher Hijdra scores(18[9,26]points vs.14[9,18]points,P=0.024).There was no statistically significant difference in the number of aneurysms,responsible aneurysm morphology,and location between the rebleeding group and the non-rebleeding group(all P>0.05).There was no statistically significant difference between the coiling and clipping in the two group(both P>0.05).Multiple Logistic regression analysis was conducted using modified Fisher grading 3-4 and rebleeding as dependent variables respectively.The results showed that age(OR,1.027,95%CI 1.006-1.049,P=0.012)and hypertension(OR,1.858,95%CI 1.196-2.886,P=0.006)were independent risk factors associated with massive SAH in small ruptured aneurysms.Hypertension(OR,3.775,95%CI 1.371-10.391,P=0.010)and lower GCS score(OR,0.677,95%CI 0.561-0.816,P<0.01)were independent risk factors associated with rebleeding in small ruptured aneurysms.Conclusions Older age and concomitant hypertension are risk factors associated with massive SAH in patients with small ruptured aneurysms.Coexisting hypertension and lower GCS score are risk factors associated with rebleeding in patients with small ruptured aneurysms.

郑鉴峰;郭宗铎;孙晓川

400016 重庆医科大学附属第一医院神经外科

颅内动脉瘤动脉瘤,破裂蛛网膜下腔出血小型动脉瘤再出血危险因素

Intracranial aneurysmsAneurysm,rupturedSubarachnoid hemorrhageSmall aneurysmRebleedingRisk factor

《中国脑血管病杂志》 2024 (006)

361-368 / 8

国家自然科学基金面上项目(82071332、82071397)

10.3969/j.issn.1672-5921.2024.06.001

评论