Large animal ischemic stroke models: replicating human stroke pathophysiology

The high morbidity and mortality rate of ischemic stroke in humans has led to the development of numerous animal models that replicate human stroke to further understand the underlying pathophysiology and to explore potential therapeutic interventions.Although promising therapeutics have been identified using these animal models,with most undergoing significant testing in rodent models,the vast majority of these interventions have failed in human clinical trials.This failure of preclinical translation highlights the critical need for better therapeutic assessment in more clinically relevant ischemic stroke animal models.Large animal models such as non-human primates,sheep,pigs,and dogs are likely more predictive of human responses and outcomes due to brain anatomy and physiology that are more similar to humans-potentially making large animal testing a key step in the stroke therapy translational pipeline.The objective of this review is to highlight key characteristics that potentially make these gyrencephalic,large animal ischemic stroke models more predictive by comparing pathophysiological responses,tissue-level changes,and model limitations.

Nutritional Support under the Neuman Systems Model for Stroke Patients

Objective: To explore nutritional support under the Neuman systems model in treating dysphagia in stroke patients. Methods: In this retrospective study, we enrolled 97 patients with dysphagia after stroke admitted to our hospital, and randomly divided them into the Neuman group (n = 51) given nursing intervention based on Neuman systems model and a control group (n = 46) given routine nursing intervention. Both groups received nutritional support for 3 months. Nutritional indexes (serum total protein, plasma albumin, serum albumin, hemoglobin and transferrin levels) and immune indexes (immunoglobulin (Ig) A, IgG, IgM and total lymphocyte count (TLC) in both groups were recorded and compared. Pulmonary function recovery, video fluoroscopic swallowing study score, water swallowing test score, complication rate, and health knowledge mastery level were also compared between the two groups. Results: After the intervention, the Neuman group showed less decrease in the nutritional and immune index scores (serum total protein, plasma albumin, hemoglobin, serum albumin;IgA, IgG, IgM, and TLC;all P Conclusion: For patients with stroke and dysphagia, comprehensive nursing intervention (e.g., nutritional support) under theNeuman systems model can promote the recovery of immune, swallowing, and pulmonary function, reduce complication incidence and facilitate comprehensive rehabilitation, ensuring adequate nutritional intake.

基于eStroke国家溶取栓影像平台的随机森林模型预测醒后卒中预后的价值

目的探讨基于eStroke国家溶取栓影像平台的随机森林模型预测醒后卒中(WUS)预后的价值。方法选取2019-01—2023-03广西医科大学第七附属医院285例WUS患者为研究对象,根据取栓治疗后90 d改良Rankin量表(mRS)评分分为预后良好组和预后不良组。统计2组临床资料及eStroke国家溶取栓影像平台自动反馈定量资料(缺血半暗带体积、梗死核心区体积),构建随机森林模型和Lasso-Logistic回归模型,以Lasso-Logistic回归模型为参照,评价随机森林模型预测WUS患者不良预后风险的价值。结果2组入院时Hcy、WBC、DSA-CS评分、NIHSS评分及取栓次数、穿刺至再通时间、颅内血管狭窄程度、房颤、吸烟史、静脉溶栓、缺血半暗带体积、梗死核心区体积比较差异均有统计学意义(P<0.05);缺血半暗带体积、梗死核心区体积、入院时Hcy水平、入院时NIHSS评分、入院时DSA-CS评分、颅内血管狭窄程度、静脉溶栓、房颤是WUS患者不良预后的影响因素(P<0.05);Logistic回归模型与随机森林模型预测WUS患者不良预后风险的AUC比较差异无统计学意义(0.891,95%CI:0.875~0.902比0.900,95%CI:0.894~0.923)。结论基于eStroke国家溶取栓影像平台的随机森林模型可用于WUS患者早期预后的预测评估,为临床针对性展开后续治疗提供参考,以改善患者预后。

Rodent models for experimental heat stroke research

Because of the aggressive threaten of heat stroke and a lack of understanding of the mechanism of action, mammal animal models for experimental heat stroke were well developed. During the past 5 decades, anesthetized mouse, rat, rabbit, dog, baboon and monkey were used as animal model for experimental heat stroke. However, anesthetized mammals models have some limitations, such as neuroprotective effect of anesthetic agents, possible disturbance on injury and recovery of stroke animals by anesthetic agents, difficulty of discussing animal behavior before and after heat stroke, it was also difficult for the models to evaluate cognitive function of animal under hot environment. Considering humanitarian, only awaked and unrestrained mouse heat stroke model was accepted so far. Therefore, we also developed an awaked and unrestrained rat heat stroke model, and found it was helpful to evaluate drug effectiveness for animal behavior and cognitive function under hot environment.

Middle cerebral artery occlusion methods in rat versus mouse model of transient focal cerebral ischemic stroke

Experimental stroke research commonly employs focal cerebral ischemic rat models （Bederson et al., 1986a; Longa et al., 1989）. In human patients, ischemic stroke typically results from thrombotic or embolic occlusion of a major cerebral artery, usually the mid- dle cerebral artery （MCA）. Experimental focal cerebral ischemia models have been employed to mimic human stroke （Durukan and Tatlisumak, 2007）. Rodent models of focal cerebral ischemia that do not require craniotomy have been developed using intraluminal suture occlusion of the MCA （MCA occlusion, MCAO） （Rosamond et al., 2008）. Furthermore, mouse MCAO models have been wide- ly used and extended to genetic studies of cell death or recovery mechanisms （Liu and McCullough, 2011）. Genetically engineered mouse stroke models are particularly useful for evaluation of isch- emic pathophysiology and the design of new prophylactic, neuro- protective, and therapeutic agents and interventions （Armstead et al., 2010）. During the past two decades, MCAO surgical techniques have been developed that do not reveal surgical techniques for mouse MCAO model engineering. Therefore, we compared MCAO surgical methods in rats and mice.

Recent advances of optical imaging in animal stroke model

Stroke is a major health concern and an intensive research subject due that it is the major cause of death and the leading cause of disability worldwide. The past three decades of clinical disappointments in treating stroke must compel us to rethink our strategy. New effective protocol for stroke could greatly benefit from the advances in optical imaging technologies. This review focuses on the latest advance of applications of three optical imaging techniques in animal model of stroke, such as photoacoustic （PA） imaging, laser speckle contrast imaging （LSCI） and two-photon microscopy （TPM）. The potential roles of those techniques in the future of stroke management are also discussed.

Mathematical Modeling and Software Application of Blood Flow for Therapeutic Management of Stroke

People in the rural areas do not have access to specialist medical care, and when they have complications of stroke, they do not have specialists to look at them and they cannot afford to travel to the cities. The primary health care centers are not equipped with sophisticated equipments. Medicine is about medication, treatment and management. In rural areas treatment is not available either because of accessibility or affordability. Even the few doctors that are available are not in primary health care centres. Well conserved one-dimensional non-linear equations of blood flow describing blood flow in distensible blood vessels were used to develop software. This model could describe discontinuities and disruption in blood flow. The computer software can be used for detecting artherosclerosis, stenosis and differentiation of haemorrhagic and ischaemic strokes for stroke management from simple measurements. The software developed is capable of computing the Siriraj and the Allen clinical scores. These scores have been proposed to help clinicians in making decisions while waiting for results of computerized tomography, hence clinicians can start anti-thrombotic treatment while waiting for the scan results. It is capable of simulating stenosis at different position and depth of flow along the arterial length, and can be used for diagnosis. The medical emphasis is on avoiding possible occurrence, every individual can know his status by inputting the required data such as flow and geometry of their arteries into the developed interface and such measurements can be obtained from simple Doppler measurements.

Efficiency of collective myosin Ⅱ motors studied with an elastic coupling power-stroke ratchet model

We proposed a modified ratchet model including power-stroke and elastic coupling to study the efficiency of collective non-processive motors such as myosin Ⅱ in muscle. Our theoretical results are in good agreement with the experimental data. Our study not only reveals that the maximum efficiency depends on elasticity and is independent of transition rates but also indicates that the parameters fitted to fast muscle are different from those fitted to a slow one. The latter may imply that the structure of the fast muscle is different from that of the slow one. The main reason that our model succeeds is that velocity in this model is an independent variable.

Hidden Markov Models to Estimate the Lagged Effects of Weather on Stroke and Ischemic Heart Disease

The links between low temperature and the incidence of disease have been studied by many researchers. What remains still unclear is the exact nature of the relation, especially the mechanism by which the change of weather effects on the onset of diseases. The existence of lag period between exposure to temperature and its effect on mortality may reflect the nature of the onset of diseases. Therefore, to assess lagged effects becomes potentially important. The most of studies on lags used the method by Lag-distributed Poisson Regression, and neglected extreme case as random noise to get correlations. In order to assess the lagged effect, we proposed a new approach, i.e., Hidden Markov Model by Self Organized Map (HMM by SOM) apart from well-known regression models. HMM by SOM includes the randomness in its nature and encompasses the extreme cases which were neglected by auto-regression models. The daily data of the number of patients transported by ambulance in Nagoya, Japan, were used. SOM was carried out to classify the meteorological elements into six classes. These classes were used as “states” of HMM. HMM was used to describe a background process which might produce the time series of the incidence of diseases. The background process was considered to change randomly weather states, classified by SOM. We estimated the lagged effects of weather change on the onset of both cerebral infarction and ischemic heart disease. This fact is potentially important in that if one could trace a path in the chain of events leading from temperature change to death, one might be able to prevent it and avert the fatal outcome.

构建出血性卒中不良预后的风险预测模型:一项横断面研究

目的 研究出血性卒中的不良预后因素,并构建预测模型,改进相关评判体系。方法 从院前-院内一体化角度开展横断面调查,经单因素比较后,将有显著差异的指标依次纳入单因素-多因素Poisson回归分析,将筛选所得独立危险因素构建为预测模型。再以列线图形式将预测模型转为可视化的优化评分量表,获知相应评分对应的预测概率。应用ROC曲线检验优化评分与ICH-CT评分对于预测不良预后的评判效能,按照两种评分信息提取验证组患者的相关资料,获取每例验证组患者的最终评分。将评分与预后结果代入ROC曲线以评价不同预测模型的预测能力,并将预测模型转换为可视化的优化评分量表,从而量化不良预后转归的概率;再以ICH-CT模型为参照,探寻优化评分对于出血性卒中患者不良预后转归的评判效能。结果 经过样本量计算,最终选取273例患者作为本次横断面研究的模型组样本:累计110例出血性卒中患者为不良预后转归、163例患者预后尚可,时间跨度为2021年1月至2021年9月。另收集2021年9月至2022年1月期间81例急性出血性卒中患者为验证组:出血性卒中患者预后不良及尚可的患者分别为21、60例。模型组不同预后组间比较人口学特征发现:男性占比、年龄、糖尿病病史存在显著统计学差异(均P<0.05);其他临床资料组间比较发现GCS评分、就诊时间、出血血肿量、发热、混合征、脑疝、脑室内出血发生率及出血部位存在显著统计学差异(均P<0.05)。回归分析发现,糖尿病病程、就诊时间、出血血肿量、混合征、脑室内出血为不良预后的影响因素。优化评分与ICH-CT评分的评判临界(Cut-off)值分别为186分、128分,优化评分的AUC与Youden指数均大于ICH-CT评分,优化评分对于不良预后的评判效能优于ICH-CT评分(Z=2.369,P<0.05)。结论 本研究为出血性卒中患者的不良预后构建了预测模型,并将其转化为易于临床使用的优化评分。其预测效能优于传统评估方式。

Hidden Markov Models and Self-Organizing Maps Applied to Stroke Incidence

Several studies were devoted to investigate the effects of meteorological factors on the occurrence of stroke. Regression models had been mostly used to assess the correlation between weather and stroke incidence. However, these methods could not describe the process proceeding in the back-ground of stroke incidence. The purpose of this study was to provide a new approach based on Hidden Markov Models (HMMs) and self-organizing maps (SOM), interpreting the background from the viewpoint of weather variability. Based on meteorological data, SOM was performed to classify weather patterns. Using these classes by SOM as randomly changing “states”, our Hidden Markov Models were constructed with “observation data” that were extracted from the daily data of emergency transport at Nagoya City in Japan. We showed that SOM was an effective method to get weather patterns that would serve as “states” of Hidden Markov Models. Our Hidden Markov Models provided effective models to clarify background process for stroke incidence. The effectiveness of these Hidden Markov Models was estimated by stochastic test for root mean square errors (RMSE). “HMMs with states by SOM” would serve as a description of the background process of stroke incidence and were useful to show the influence of weather on stroke onset. This finding will contribute to an improvement of our understanding for links between weather variability and stroke incidence.

基于互联网云平台脑卒中智能随访模型在脑卒中患者中的应用

目的:探究基于互联网云平台的脑卒中智能随访模型在缺血性脑卒中患者中的应用。方法:采用便利抽样法选取缺血性脑卒中出院患者60例,随机分为干预组(30例)和对照组(30例)。对照组患者接受常规随访管理,干预组患者接受基于互联网云平台的脑卒中智能随访模型管理,两组均接受出院后90 d的随访管理。比较两组患者随访率、复发率、患者满意度、生活质量情况。结果:干预组干预90 d时随访率高于对照组,干预组患者满意度高于对照组,差异均有统计学意义(P<0.05);干预后两组患者脑卒中生活质量量表(SS-QOL)评分较干预前提高(P<0.05),且干预后30 d、90 d时,干预组患者SS-QOL评分高于对照组(P<0.05)。结论:基于互联网云平台的脑卒中智能随访模型可有效提高缺血性脑卒中患者的随访率和满意度,并改善其生活质量。

卒中及共患疾病诊疗模式探索与实践

近年来,虽然国内外学者对卒中及共患疾病的关注逐步提高,但由于多病共存的特殊性和异质性,针对此类患者的诊治仍存在诸多不足和挑战。卒中及共患疾病的诊疗能力很大程度上反映了医疗机构的神经系统专科技术水平和多学科协同救治能力。构建多学科协同诊疗模式是卒中救治和质量管理体系建设的重要内容之一。医疗机构应运用先进的质量管理工具,优化要素配置和运行机制,建立高效的多学科协同诊疗模式,从而实现卒中及共患疾病整体诊治水平的提升。

基于临床资料和血清指标构建脑出血合并卒中相关性肺炎的预测模型构建及验证

目的研究脑出血(ICH)患者合并卒中相关性肺炎(SAP)的危险因素,并构建Nomogram预测模型,预测ICH患者合并SAP的风险。方法选取2017年12月至2022年6月321例ICH患者合并SAP的情况进行调查,根据是否发生SAP分为SAP组和对照组,调查2组临床资料及中性粒细胞/淋巴细胞比值(NLR)、血小板/淋巴细胞比值(PLR)水平,以是否合并SAP为因变量,采用Lasso回归和Logistic回归筛选ICH患者合并SAP的独立危险因素,使用R语言构建Nomogram预测模型,并对构建的模型进行评估。结果321例ICH患者中57例发生SAP,Lasso回归和Logistic回归筛选出:年龄、肺部基础疾病、糖尿病、吞咽困难、NLR、PLR和气管插管是ICH患者合并SAP的危险因素(P<0.05),基于上述因素构建Nomogram预测模型,对于构建Nomogram预测模型进行评估显示,C-index值为0.867,95%CL(0.856~0.945),模型区分度良好:AUC为0.815,95%CL(0.854~0.945),模型准确性良好,校准曲线证明模型预测能力尚可,临床决策曲线显示:当MCI概率阈值>11%以及<85%使用此模型可以获得较高净获益。结论本研究构建的ICH患者合并SAP的Nomogram预测模型,具有良好区分度和精准度。

苦参碱对缺血性脑卒中大鼠神经炎症的影响

目的探究苦参碱调节高迁移率族蛋白B1(HMGB1)-晚期糖基化终末产物受体(RAGE)信号通路对缺血性脑卒中(IS)大鼠神经炎症的影响。方法将75只SD大鼠随机分为模型组、苦参碱低剂量组(10 mg/kg)、苦参碱高剂量组(20 mg/kg)、苦参碱高剂量+晚期糖基化终末产物(AGE)血清蛋白组(20 mg/kg苦参碱+100 mg/kg AGE血清蛋白)和假手术组,每组15只。采用线栓法构建大鼠大脑中动脉闭塞模型。用Longa评分评估大鼠神经功能缺损;氯化三苯四氮唑染色检测脑梗死情况;苏木精-伊红染色观察海马组织病理变化;酶联免疫吸附测定海马组织白细胞介素(IL)1β、IL-6、肿瘤坏死因子α(TNF-α)水平。Western blot检测海马组织HMGB1、RAGE蛋白表达。结果苦参碱高剂量组Longa评分、脑梗死面积、IL-1β、IL-6、TNF-α、HMGB1和RAGE蛋白表达明显低于模型组和苦参碱低剂量组(P<0.05)。苦参碱高剂量+AGE血清蛋白组Longa评分、脑梗死面积、IL-1β、IL-6、TNF-α、RAGE蛋白表达明显高于苦参碱高剂量组[(2.93±0.30)分vs(1.10±0.12)分,(38.18±4.04)%vs(15.52±1.74)%,(78.57±8.33)pg/ml vs(39.27±4.76)pg/ml,(203.14±24.39)pg/ml vs(92.45±11.23)pg/ml,(243.53±26.81)pg/ml vs(150.49±18.79)pg/ml,0.73±0.07 vs 0.44±0.04,P<0.05]。结论苦参碱可能通过抑制HMGB1-RAGE信号通路减轻IS大鼠的神经炎症。

跨理论模型联合微信随访在急性缺血性脑卒中合并血脂异常患者血脂管理中的应用

目的探究跨理论模型联合微信随访对急性缺血性脑卒中合并血脂异常患者的血脂水平、血脂管理健康知识、态度和行为水平等方面的影响。方法前瞻性收集2022年12月至2023年11月青海省人民医院神经内科收治的急性缺血性脑卒中合并血脂异常患者,并随机分为联合干预组和常规对照组。联合干预组给予跨理论模型联合微信随访干预,常规对照组给予传统健康教育。比较两组间血脂生化指标[总胆固醇(TC)、甘油三酯(TG)、低密度脂蛋白胆固醇(LDL-C)、高密度脂蛋白胆固醇(HDL-C)、载脂蛋白A1(ApoA1)和载脂蛋白B(ApoB)]、血脂管理健康知识-态度-行为水平、干预依从性、护理满意度以及心理状态的差异。结果共纳入急性缺血性脑卒中合并血脂异常患者120例,联合干预组和常规对照组各60例。治疗前,两组患者在基线资料和各检测指标水平方面无统计学差异(P>0.05)。干预3个月后,两组患者的TC、TG、LDL-C和ApoB水平较干预前均显著下降(P<0.05),ApoA1、HDL-C较干预前均显著升高(P<0.05),且联合干预组患者TC、TG、LDL-C和ApoB水平显著低于常规对照组,ApoA1和HDL-C水平显著高于常规对照组(P<0.05);两组患者的血脂管理知识、态度、行为评分均升高,联合干预组患者各评分均显著高于常规对照组(P<0.05)。干预3个月后,联合干预组患者依从性和护理满意度均显著高于常规对照组(P<0.05);联合干预组的躯体化、强迫症状、人际关系、抑郁、焦虑、敌对、恐惧、偏执、精神病性评分均显著低于常规对照组(P<0.05)。结论应用跨理论模型联合微信随访可以有效改善急性缺血性脑卒中合并血脂异常患者的血脂水平,提高患者对血脂管理的健康知识、态度和行为水平,增加患者的干预依从性、护理满意度并改善患者心理状态。

卒中后老年人群心理痛苦及影响因素结构方程模型构建

目的了解卒中后老年人群心理痛苦现状,明确卒中后老年人群心理痛苦影响因素及作用机制。方法定点连续取样,按纳排标准抽取230例住院老年脑卒中患者,应用脑卒中患者心理痛苦温度计、健康认知评价量表、心理弹性量表简版、领悟社会支持量表、医学应对方式问卷进行问卷调查。用SPSS 25.0软件包建立数据库,用AMOS 25.0软件进行统计分析,构建心理痛苦影响因素结构方程模型。结果老年脑卒中患者心理痛苦总分(3.02±2.04)分。心理痛苦影响因素中,心理弹性总效应值-0.663,其中直接效应值-0.365;社会支持总效应值-0.033,均为间接效应;认知评价和应对方式在心理弹性与心理痛苦以及社会支持与心理痛苦之间起中介作用。结论老年脑卒中患者的心理痛苦处于中等水平,医务工作者应予以重视。心理弹性对心理痛苦的影响既有直接作用,又可通过认知评价及应对方式间接影响,且呈负向影响;社会支持只能通过认知评价及应对方式间接影响心理痛苦,社会支持通过认知评价及回避应对方式间接正向影响心理痛苦,通过认知评价及屈服应对方式间接负向影响心理痛苦。

A more consistent intraluminal rhesus monkey model of ischemic stroke

Endovascular surgery is advantageous in experimentally induced ischemic stroke because it causes fewer cranial traumatic lesions than invasive surgery and can closely mimic the pathophysiology in stroke patients. However, the outcomes are highly variable, which limits the accuracy of evaluations of ischemic stroke studies. In this study, eight healthy adult rhesus monkeys were randomized into two groups with four monkeys in each group： middle cerebral artery occlusion at origin segment （M1） and middle cerebral artery occlusion at M2 segment. The blood flow in the middle cerebral artery was blocked completely for 2 hours using the endovascular microcoil placement technique （1 mm × 10 cm） （undetachable）, to establish a model of cerebral ischemia. The microcoil was withdrawn and the middle cerebral artery blood flow was restored. A reversible middle cerebral artery occlusion model was identified by hematoxylin-eosin staining, digital subtraction angiography, magnetic resonance angiography, magnetic resonance imaging, and neurological evaluation. The results showed that the middle cerebral artery occlusion model was successfully established in eight adult healthy rhesus monkeys, and ischemic lesions were apparent in the brain tissue of rhesus monkeys at 24 hours after occlusion. The rhesus monkeys had symptoms of neurological deficits. Compared with the M1 occlusion group, the M2 occlusion group had lower infarction volume and higher neurological scores. These experimental findings indicate that reversible middle cerebral artery occlusion can be produced with the endovascular microcoil technique in rhesus monkeys. The M2 occluded model had less infarction and less neurological impairment, which offers the potential for application in the field of brain injury research.

基于IMB技巧模型的护理干预对卒中后认知障碍患者的影响

目的探讨在卒中后认知障碍(PSCI)患者干预期间采用基于信息-动机-行为(IMB)技巧模型下的护理干预效果。方法以洛阳某三甲医院神经内科收治的PSCI患者为研究对象,2022-02—2022-06接收的80例患者为对照组,采取常规护理干预模式;以2022-07—2022-11接收的80例患者为干预组,实施基于IMB技巧模型下的护理干预模式。对比2组患者干预前后认知功能(MMSE、MoCA评分)、自理能力(BI)、焦虑和抑郁情况(HAMA、HAMD评分)。结果干预后干预组MoCA、MMSE评分均优于对照组(MMSE评分:22.18±4.25比27.12±4.72,t=5.349,P<0.05;MoCA评分:22.23±4.37比26.77±5.25,t=4.327,P<0.05),BI高于对照组(BI:56.49±5.17比64.52±6.28,t=5.892,P<0.05),HAMD、HAMA评分均低于对照组(HAMA评分:7.51±2.42比5.23±1.63,t=8.532,P<0.05;HAMD评分:5.69±1.48比3.28±1.40,t=8.925,P<0.05)。结论基于IMB技巧模型下的护理干预可有效实现对PSCI患者认知功能、日常生活能力及心理状态的提升,值得推广。

首发脑卒中患者心理痛苦预测模型的构建及验证

目的调查分析首发脑卒中患者心理痛苦现状及影响因素,构建心理痛苦预测模型,并进行验证。方法通过便利抽样法,选取郑州大学第二附属医院神经康复科2022年3—9月收治的242例首发脑卒中患者为对象,应用心理痛苦温度计(DT)评估患者是否存在明显心理痛苦,收集患者临床资料,通过单因素分析和多因素logistic回归分析对患者心理痛苦影响因素进行筛选,绘制列线图构建心理痛苦预测模型,并进行受试者工作特征(ROC)曲线分析以验证模型效果。结果242例首发脑卒中患者DT评分结果阳性(DT≥4分)检出126例,心理痛苦发生率为52.07%。logistic回归分析筛选最终预测变量显示,年龄、受教育程度、家庭月收入、卒中损伤程度、自我效能、应对方式、社会支持度、功能独立性均为首发脑卒中患者心理痛苦的独立性影响因素(P<0.05)。模型ROC曲线下面积为0.912(95%CI为0.705~0.943,P<0.05),灵敏度为0.871,特异度为0.825,约登指数为0.696。结论首发脑卒中患者心理痛苦发生率高,影响因素多,构建列线图预测模型有利于医护人员识别预测患者心理痛苦发生风险,为及时采取预防措施提供指导。