The Impact of Cardiac Pacing Site on Patient's Cardiac Function and Psychological State

With the widespread application of artificial permanent pacemakers in clinical practice,there have been new changes in the indications for pacemaker implantation.The current clinical indications include high atrioventricular block,sick sinus syndrome,cardiac resynchronization therapy for heart failure,and implantation of cardioverter defibrillators for ventricular arrhythmias.The implantation of a pacemaker can improve the quality of life and prognosis of patients with arrhythmia.In the past,permanent pacemaker implantation was performed in clinical practice,and the right ventricular pacing electrode was often fixed at the apex of the right ventricle,which belongs to non physiological pacing.Through long-term clinical follow-up,it was found that apex pacing can easily cause abnormal depolarization of the left ventricle,asynchronous contraction of the myocardium,and ultimately lead to myocardial fibrosis,which has adverse effects on the patient's cardiac function and psychological state.In recent years,Scholars have found that pacing in the right ventricular outflow tract septum is closer to the atrioventricular node and closer to the His bundle Purkinje fibers.The pacing impulse almost simultaneously expands towards both ventricles,closer to the physiological pacing state,thereby reducing the occurrence of cardiovascular events in patients.This article explores the impact of pacing in different parts of the heart on the cardiac function and psychological state of patients based on clinical data from the past three years.

Integration of Digital Twins and Artificial Intelligence for Classifying Cardiac Ischemia

Despite advances in intelligent medical care,difficulties remain.Due to its complicated governance,designing,planning,improving,and managing the cardiac system remains difficult.Oversight,including intelligent monitoring,feedback systems,and management practises,is unsuccessful.Current platforms cannot deliver lifelong personal health management services.Insufficient accuracy in patient crisis warning programmes.No frequent,direct interaction between healthcare workers and patients is visible.Physical medical systems and intelligent information systems are not integrated.This study introduces the Advanced Cardiac Twin(ACT)model integrated with Artificial Neural Network(ANN)to handle real-time monitoring,decision-making,and crisis prediction.THINGSPEAK is used to create an IoT platform that accepts patient sensor data.Importing these data sets into MATLAB allows display and analysis.A myocardial ischemia research examined Health Condition Tracking’s(HCT’s)potential.In the case study,75%of the training sets(Xt),15%of the verified data,and 10%of the test data were used.Training set feature values(Xt)were given with the data.Training,Validation,and Testing accuracy rates were 99.9%,99.9%,and 99.9%,respectively.General research accuracy was 99.9%.The proposed HCT system and Artificial Neural Network(ANN)model gather historical and real-time data to manage and anticipate cardiac issues.

In vivo mechanical study of helical cardiac pacing electrode interacting with canine myocardium

Cardiac pacing is a medical device to help human to overcome arrhythmia and to recover the regular beats of heart. A helical configuration of electrode tip is a new type of cardiac pacing lead distal tip. The helical electrode attaches itself to the desired site of heart by screwing its helical tip into the myocardium. In vivo experiments on anesthetized dogs were carried out to measure the acute interactions between helical electrode and myocardium during screw-in and pull-out processes. These data would be helpful for electrode tip design and electrode/myocardium adherence safety evaluation. They also provide reliability data for clinical site choice of human heart to implant and to fix the pacing lead. A special design of the helical tip using strain gauges is instrumented for the measurement of the screw-in and pull-out forces. We obtained the data of screw-in torques and pull-out forces for five different types of helical electrodes at nine designed sites on ten canine hearts. The results indicate that the screw-in torques increased steplike while the torque-time curves presente saw-tooth fashion. The maximum torque has a range of 0.3-1.9 Nmm. Obvious differences are observed for different types of helical tips and for different test sites. Large pull-out forces are frequently obtained at epicardium of left ventricle and right ventricle lateral wall, and the forces obtained at right ventricle apex and outflow tract of right ventricle are normally small. The differences in pull-out forces are dictated by the geometrical configuration of helix and regional structures of heart muscle.

Future easy and physiological cardiac pacing

The right atrial appendage (RAA) and right ventricular apex (RVA) have been widely considered as conventional sites for typical dual-chamber atrio-ventricular cardiac (DDD) pacing. Unfortunately conventional RAA pacing seems not to be able to prevent atrial fibrillation in DDD pacing for tachycardia-bradycardia syndrome, and the presence of a left bundle branch type of activation induced by RVA pacing can have negative effects. A new technology with active screw-in leads permits a more physiological atrial and right ventricular pacing. In this review, we highlight the positive effects of pacing of these new and easily selected sites. The septal atrial lead permits a shorter and more homogeneous atrial activation, allowing better prevention of paroxysmal atrial fibrillation. The para-Hisian pacing can be achieved in a simpler and more reliable way with respect to biventricular pacing and direct Hisian pacing. We await larger trials to consider this "easy and physiological pacing" as a first approach in patients who need a high frequency of pacing.

An Artificial Heart System for Testing and Evaluation of Cardiac Pacemakers

The usability assessment of a pacemaker is a complex task where the dedicated programmer for testing programmed algorithms is necessary.This paper provides the outcomes of development and complex testing of the artificial cardiac system to evaluate the pacemaker’s functionality.In this work,we used the modular laboratory platform ELVIS II and created graphical user interface in LabVIEW programming environment.The electrical model of the heart allows signals generation(right atrium,right ventricle)and the monitoring of the stimulation pulses.The LabVIEW user interface allows to set the parameters of the generated signals and the simulation of the cardiac rhythm disorders as well as the monitoring and visualization of the pacemaker behavior in real-time.The results demonstrate the capability of proposed system to evaluate the paced and sensed pulses.The proposed solution allows the scientists to test the behavior of any cardiac pacemaker for its pre-programmed settings and pacing mode.In addition,the proposed system can simulate various disorders and test cardiac pacemakers in different working modes.

THE OPERATION AND FEELINGS OF APPLICATION OF TEMPORARY CARDIAC PACING BESIDE BED WITHOUT FLUOROSCOPY

The endocardial electrodes were placed in endoventriculus beside bed withoutfluoroscopy in 9 patients who required temporary cardiac pacing and theresults were satisfactory.The manipulatory points are below:operatingcarefully with lightly and softly handling,noticing hand’s feeling,tryingagain by roling the electrode and/or changing its top’s direction whenmeeting with venous valves or branches.Judging the position of electrode’stop according to the right ventricular luminal electrogram.As comparedwith the setting of electrode under X ray,our method is superior in savingtime and requires less instrumente,the patients needn’t be moved,bothphysicans and patients are avoided X radiation’s injury.

Role of artificial intelligence in cardiology

Artificial intelligence(AI)is the process of having a computational program that can perform tasks of human intelligence by mimicking human thought processes.AI is a rapidly evolving transdisciplinary field which integrates many elements to develop algorithms that aim to simulate human intuition,decision-making,and object recognition.The overarching aims of AI in cardiovascular medicine are threefold:To optimize patient care,improve efficiency,and improve clinical outcomes.In cardiology,there has been a growth in the potential sources of new patient data,as well as advances in investigations and therapies,which position the field well to uniquely benefit from AI.In this editorial,we highlight some of the main research priorities currently and where the next steps are heading us.

Left bundle branch pacing set to outshine biventricular pacing for cardiac resynchronization therapy?

The deleterious effects of long-term right ventricular pacing necessitated the search for alternative pacing sites which could prevent or alleviate pacinginduced cardiomyopathy.Until recently,biventricular pacing(BiVP)was the only modality which could mitigate or prevent pacing induced dysfunction.Further,BiVP could resynchronize the baseline electromechanical dssynchrony in heart failure and improve outcomes.However,the high non-response rate of around 20%-30%remains a major limitation.This non-response has been largely attributable to the direct non-physiological stimulation of the left ventricular myocardium bypassing the conduction system.To overcome this limitation,the concept of conduction system pacing(CSP)came up.Despite initial success of the first CSP via His bundle pacing(HBP),certain drawbacks including lead instability and dislodgements,steep learning curve and rapid battery depletion on many occasions prevented its widespread use for cardiac resynchronization therapy(CRT).Subsequently,CSP via left bundle branch-area pacing(LBBP)was developed in 2018,which over the last few years has shown efficacy comparable to BiVP-CRT in small observational studies.Further,its safety has also been well established and is largely free of the pitfalls of the HBP-CRT.In the recent metanalysis by Yasmin et al,comprising of 6 studies with 389 participants,LBBPCRT was superior to BiVP-CRT in terms of QRS duration,left ventricular ejection fraction,cardiac chamber dimensions,lead thresholds,and functional status amongst heart failure patients with left bundle branch block.However,there are important limitations of the study including the small overall numbers,inclusion of only a single small randomized controlled trial(RCT)and a small follow-up duration.Further,the entire study population analyzed was from China which makes generalizability a concern.Despite the concerns,the meta-analysis adds to the growing body of evidence demonstrating the efficacy of LBBP-CRT.At this stage,one must acknowledge that the fact that still our opinions on this technique are largely based on observational data and there is a dire need for larger RCTs to ascertain the position of LBBPCRT in management of heart failure patients with left bundle branch block.

Predictors of super-response to cardiac resynchronization therapy： the significance of heart failure medication, pre-implant left ventricular geometry and high percentage of biventricular pacing

BackgroundSuper 应答者(SR ) 被定义为在心脏的再同步治疗(CRT ) 以后显示出关键心脏的功能改进的病人。这研究的目的是在 CRT.MethodsThis 学习注册了从 2010 ～ 2014 在时期期间经历了 CRT 的 201 个病人以后，识别并且验证 SR 的预言者。临床并且 echocardiographic 评估在 CRT 和 6 个月前被进行在以后。有在纽约心协会(NYHA ) 的减少的病人功能的班 1，在左室的结束收缩的体积(LVESV ) 的减少 15% ，并且最后的左室的喷射部分(LVEF ) 当经历了 CRT 的 201 个病人的 SRs.Results29% 作为 SR 被识别， 45% 被分类。在基线， SR 有显著地更小的左 atrial 直径(男孩) ， LVESV，左室的结束心脏舒张的体积(LVEDV ) 和比 non-super-responders (non-SRs ) 的更高的 LVEF。用变换血管收缩素的酶禁止者或血管收缩素受体 blockers (ACEI/ARB ) 的病人的百分比比 non-SRs 在 SR 是更高的。大多数 SR 有 Biventricular (BiV ) 在 CRT 以后在比 98% 六个月大的百分比上踱步。在 multivariate 逻辑回归分析， SR 的独立预言者是更低的 LVEDV [奇怪的比率(或) ：0.93；信心间隔(CI ) ：0.90-0.97 ] ， ACEI/ARB 的使用(或：0.33；CI：0.13-0.82 ) 并且比 98% 大的 BiV 踱步百分比(或：0.29；CI：0.16-0.87 ) 有 ACEI/ARB 和更少 ectatic 的更好的依从的 .ConclusionPatients 在 CRT 前的室的几何学趋于有成为 SR 的更大的可能性。BiV 踱步的更高的百分比为成为 SR 是必要的。

Left univentricular pacing for cardiac resynchronization therapy using rate-adaptive atrioventricular delay

ObjectiveTo 评估左 univentricular (爱)用率适应的心房与心室的延期( RAAVD )为心脏的再同步治疗( CRT )踱步追踪生理的心房与心室的延期( AVD )的算法有充血的心失败( CHF )的 72 个病人全部的 .MethodsA 被使随机化到 RAAVD 爱踱步对标准 biventricular ( BiV )在 1 踱步：1 比率。Echocardiography 被用来为两个组优化 AVD。顺序的 BiV 踱步的效果并且爱与优化 A-V (正确 atrio-LV ) 踱步用一个 RAAVD 算法的延期被比较。在在五心率( HR )的铅 V1 的 S/R 比率的标准差( SD )分割( R 定义为追踪的索引的 S/R -SD5),，被用来为追踪生理的 AVD.ResultsThe QRS 复杂持续时间评估 RAAVD 算法的精确性( 132 瑮慲慣摲慩??????椠瑮慲慣摲慩???????

Cardiac Resynchronization Therapy in Heart Failure in Sub-Saharan Africa Environment: Experience of the Principal Hospital of Dakar (Senegal)

Background: Heart failure is a major public health challenge in sub-Saharan Africa. In patients with chronic Heart Failure and cardiac desynchrony, studies have suggested that cardiac resynchronization, can improve cardiac function and the quality of life of patients. However, in Sub-Saharan Africa, very few studies have been done on cardiac resynchronization which is in its infancy. The aim of this study is to report the local data from our hospital. Method: It was a transversal, descriptive and analytical study conducted from November 2019 to September 2022 at the Cardiology Department of the Principal Hospital of Dakar. Results: Twelve patients were implanted for Cardiac Resynchronization Therapy (CRT). The sex ratio was 8 males/4 females. The average age was 67 ± 11 years. Ten patients had non-ischemic heart disease and the two others had ischemic one. All of them had NYHA III or IV scores before CRT. The Quality of Life (QOL) was judged as poor by all of the patients. The average duration of QRS was 156 ± 9 ms. 27.9% ± 5% was the mean Left Ventricular ejection fraction (LVEF). Complications occur in 3/12 patients (25%). It was one CS vein dissection, one micro LV lead dislodgement and one phrenic nerve stimulation. Nine patients, who were considered as responders, had an improvement of QOL and NYHA, the LVEF increased and the end-diastolic dimension, and the duration of the QRS interval all decreased. Two patients do not respond and one (1) who had permanent atrial fibrillation, was a secondary responder after an atrioventricular junction ablation. Conclusion: Cardiac resynchronization is a therapy that improves the QOL of patients, the LVEF and reduces the duration of the QRS interval. However, this procedure is not without risk of complications. In sub-Saharan Africa, the major challenge is to improve the financial accessibility of this therapy for the population.

CCTA-AI联合FFR-CT诊断冠状动脉狭窄病变的应用价值研究

目的评估计算机断层扫描血管成像(CCTA)与人工智能(AI)联合心肌灌注分数(FFR-CT)对冠状动脉狭窄病变的诊断价值。方法选择于2022年1月至2023年2月到南阳市中心医院接受诊治的80例疑似冠状动脉狭窄病变患者作为观察对象。所有患者均接受CCTA以及冠状动脉造影(CAG)检查,其检查的间隔时间应在14天内,然后通过AI软件自动对CCTA的图像进行重建和计算,同时计算FFR-CT的数值。计算人工智能辅助的心脏计算机断层扫描(CCTA-AI)联合FFR-CT诊断的敏感度、特异度、准确度、阳性预测值和阴性预测值。结果80例患者经CAG检查确诊,72例患者为冠状动脉狭窄病变,占比为90%;8例患者为非冠状动脉狭窄病变,占比为10%。CCTA-AI联合FFR-CT检查的敏感度、特异度、阳性预测值、阴性预测值、准确度以及AUC值均高于CCTA-AI、FFR-CT单独检查,差异有统计学意义(P<0.05)。结论采用CCTA-AI联合FFR-CT检查诊断冠状动脉狭窄病变具有较高的诊断效能,其敏感度及特异度均得到显著提高。

急性心脏电极穿孔的处理策略分析

目的:分析和总结心律置入装置置入术后急性心脏电极穿孔的处理策略。方法:回顾性分析2007年1月至2019年1月,于北京大学人民医院因急性心脏电极穿孔成功拔除穿孔电极患者的临床资料。结果:共25例急性心脏电极穿孔患者成功拔除穿孔电极,其中合并心包积液4例(16.0%);伴有周围器官损伤1例(4.0%),表现为穿孔电极导线由右心室流出道部穿出,并穿入左肺,同时造成左侧液气胸。25例患者术前血流动力学均稳定,收缩压(129.7±11.2)mmHg(1mmHg=0.133kPa),舒张压(70.8±9.8)mmHg。经静脉拔除24例(96.0%),经开胸手术成功拔除穿孔电极1例(4.0%)。经静脉拔除患者中,直接拔除22例(88.0%),经锁定钢丝拔除2例(8.0%)。1例经静脉拔除患者术后发生肺栓塞,经抗凝治疗后好转。结论:对于血流动力学稳定且不伴周围器官损伤的急性心脏电极穿孔患者,经静脉拔除穿孔电极是安全有效的处理策略。

希浦系统起搏在CRT中的应用

1958年胸外科医生Senning为完全性房室传导阻滞患者植入了世界上首例埋藏式心脏起搏器,经过60余年的发展,从最初的右心室单腔起搏,到现在的双腔、三腔起搏,起搏器的风向标已经从单纯的激动心腔演变为追求电和机械同步性更佳的生理性起搏,应用范围也逐渐扩大,目前生理性起搏多采用希浦系统起搏。从最初的病态窦房结综合征、房室传导阻滞(atrioventricular block,AVB)等到现在的心脏再同步化治疗(cardiac resynchronization therapy,CRT),CRT可使用心脏再同步治疗起搏器(cardiac resynchronization therapy pacemaker,CRT-P)或心脏再同步治疗除颤器(cardiac resynchronization therapy defibrillator,CRT-D)。本文主要针对希浦系统起搏在CRT中的应用进行综述。

左束支区域起搏应用于心脏同步化治疗系统的对比研究

目的评估在需要行心脏再同步治疗的心力衰竭(HF)患者中行左束支区域起搏(LBBP)的临床应用价值。方法连续入选2018年1月至2023年1月于江苏省苏北人民医院心血管内科具备置入心脏同步化治疗(CRT)起搏器Ⅰ类和Ⅱ类适应证的HF患者128例,其中因冠状窦电极置入失败而置入左束支电极32例作为LBBP组,行传统双心室起搏(BVP)96例作为BVP组。观察置入时2组起搏参数等指标,于术后第1、3、6、12个月至江苏省苏北人民医院“心律失常与心脏起搏器”专病门诊随诊,之后每3~4个月随访1次,完善临床评估、12导联心电图、超声心动图、起搏器功能程控等检查,记录因HF再入院或死亡事件。结果与术前比较,2组患者末次随访QRS波时限、纽约心脏病协会(NYHA)心功能分级、左心室舒张末期内径降低,左心室射血分数(LVEF)升高(P<0.05);LBBP组末次随访QRS波时限、NYHA心功能分级低于BVP组,LVEF高于BVP组(P<0.05)。2组置入时和末次随访的起搏参数比较无显著差异(P>0.05)。LBBP组和BVP组再入院率比较无显著差异(18.75%vs 16.67%,P>0.05)。结论LBBP安全有效,可改善HF患者心功能,可能为传统CRT无效患者提供新的选择。

左束支区域起搏在改善右束支阻滞、射血分数降低患者心功能中的应用效果

目的探究左束支区域起搏(LBBaP)在改善右束支阻滞(RBBB)、射血分数降低(LVEF)≤35%患者心电图及心功能改善的效果。方法选取2020年2月到2022年8月期间九江市第一人民医院心血管内科的80例RBBB且LVEF≤35%患者作为研究对象,采用随机数字表法将其分为对照组(40例)及试验组(40例)。对照组给予双室起搏(Bi-V),试验组给予LBBaP。比较两组患者治疗前后左室舒张末径(LVDED)、左室射血分数(LVEF)、6 min步行距离(6MWD)、NN间期标准差(SDNN)、相邻NN间期之差的均方根值(rMSSD)、每5分钟NN间期均值的标准差(SDANN)、ST-T波改变情况、心力衰竭再入院率、死亡发生率、主要并发症(心脏穿孔、心包积血、恶性心律失常、心源性猝死和急性心肌梗死)。结果两组患者治疗前LVDED、LVEF、6MWD比较,差异无统计学意义(P>0.05)。两组患者治疗后LVDED低于本组治疗前,LVEF高于本组治疗前,6MWD长于本组治疗前,差异有统计学意义(P<0.05)。试验组治疗后低于对照组,LVEF高于对照组,6MWD长于对照组,差异有统计学意义(P<0.05)。试验组的ST-T波改变率高于对照组,SDNN、rMSSD、SDANN均低于对照组,差异有统计学意义(P<0.05)。试验组心力衰竭再入院率、并发症发生率、死亡率均低于对照组,差异有统计学意义(P<0.05)。结论左束支区域起搏可有效改善心功能及心电图指标,降低心力衰竭再入院率、并发症发生率、死亡率,值得推广。

希氏束起搏与右心室心尖部起搏对房室传导阻滞患者心脏结构学参数与功能学参数影响的临床研究

目的:探究希氏束起搏(HBP)与右心室心尖部起搏(RVAP)对房室传导阻滞(AVB)患者心脏结构学参数与功能学参数的影响。方法:选取收治的104例AVB患者为研究对象,随机分为HBP组和RVAP组各52例,HBP组行HBP治疗,RVAP组行RVAP治疗,比较两组术前、术后心脏结构学参数、心脏起搏参数、心率和血流动力学参数[心率(HR)、每搏输出量(SV)、心脏指数(CI)和左室射血分数(LVEF)]及QRS时限变化情况。结果:两组手术前后心脏结构学参数左心室收缩末期内径(LVESD)、左心室舒张末期内径(LVEDD)、室间隔厚度(IVS)、左室后壁厚度(LVPW)比较,差异均无统计学意义(均P>0.05);术中、术后1个月、术后6个月心脏起搏阈值、R波幅度、电极阻抗比较无统计学差异(均P>0.05);术前、术后1个月,两组HR、SV、CI、LVEF、QRS时限比较无统计学差异(均P>0.05);术后6个月,HBP组HR、SV、CI、LVEF显著高于RVAP组(均P<0.05),RVAP组QRS波时限显著低于HBP组(P<0.05);结论:HBP对AVB患者的电-机械同步性优于RVAP,近期心脏血流动力学及心功能稳定性良好。

右心室不同部位起搏患者术后左心室收缩功能的变化

目的:探讨右心室不同部位起搏患者术后左心室收缩功能的变化。方法:收集本院2018年2月至2020年5月收治的95例需进行右心室起搏患者的临床资料,根据起搏部位的不同将其分为右室心尖部起搏(RVAP)组(n=47)以及右室间隔部起搏(RVSP)组(n=48)。比较两组起搏阈值、感知阈值、电极阻抗、左室舒张末期容积(LVEDV)、左室收缩末期容积(LVESV)、每搏量(SV)、左室射血分数(LVEF)。根据术后1年是否发生心功能不全,患者被分为心功能不全组(18例)和心功能正常组(77例),分析需右心室起搏患者发生心功能不全的影响因素。结果:与术后1周比较,术后1年RVAP组感知阈值[(11.51±1.21)mV比(12.11±0.81)mV]显著升高,P=0.004。与RVAP组比较,术后1年RVSP组LVESV[(25.32±7.63)ml比(29.77±12.36)ml]、LVEDV[(58.30±15.71)ml比(68.33±25.31)ml]、SV[(31.36±10.73)ml比(41.29±16.15)ml]均显著升高,LVEF[(60.55±8.76)%比(54.10±6.44)%]及心功能不全比例(27.66%比10.42%)显著降低,P<0.05或<0.01。非条件多因素Logistic回归模型分析显示,LVEF是需右心室起搏患者发生心功能不全的独立保护因素(OR=0.854,P=0.003),而RVAP、年龄≥60岁为其独立危险因素(OR=9.041、4.145,P=0.003、0.024)。结论:与右室心尖部起搏相比,右室间隔部起搏可显著改善每搏量,心功能不全发生率显著降低。

心脏磁共振自由呼吸运动校正人工智能电影序列在心力衰竭患者中的临床应用

目的通过评估自由呼吸运动校正人工智能(free-breathing with motion correction artificial intelligence,FB-MOCO AI)电影序列的图像质量、双心室容积和功能参数,探讨其在心力衰竭患者心脏磁共振(cardiac magnetic resonance,CMR)检查中应用的可行性。材料与方法前瞻性连续纳入2022年8月至2023年5月期间来我院进行CMR检查的心力衰竭患者29例。所有患者均行常规屏气电影和FB-MOCO AI电影序列的心脏短轴面扫描。由两名放射科医师对两种电影序列采集的图像进行整体图像质量评分(5分法)。测量两种序列的双心室容积和功能参数,包括舒张末期容积(end-diastolic volume,EDV)、收缩末期容积(end-systolic volume,ESV)、每搏输出量(stroke volume,SV)、射血分数(ejection fraction,EF)和左心室舒张末期质量(LV end-diastolic mass,LVEDM)。采用配对样本t检验或Wilcoxon符号秩检验来评估两种序列之间定量数据和定性评分数据的差异。并对两种序列间定量参数做相关性分析。通过Bland-Altman分析来评估从不同序列中获得的定量参数的一致性。结果FB-MOCO AI电影序列的总扫描时间[(14.3±1.9)s]比常规屏气电影[(79.2±11.4)s]明显缩短(P<0.001)。FB-MOCO AI电影[(4.4±0.5)分]的总体图像质量评分与常规屏气电影[(4.3±0.7)分]相当,差异无统计学意义(P=0.343)。两种电影序列间所有测量的双心室容积和功能参数以及LVEDM差异均无统计学意义(P值均>0.05),并且有强相关性(r值均≥0.94,P值均<0.001)。Bland-Altman分析显示,两种电影序列的所有心功能定量参数平均差异均接近于零,且变异范围很小,一致性高。结论与常规屏气电影序列相比,心衰患者中FB-MOCO AI电影序列扫描时间明显缩短并且提供了相当的图像质量、心室容积和功能指标,有潜力替代心衰患者的常规电影序列应用于临床。

心房颤动伴长间歇的治疗策略:共识与争议

心房颤动(房颤)是心血管疾病中最为常见的心律失常,其常与病态窦房结综合征并存且相互作用。既往临床上对于有症状的房颤伴长间歇治疗多倾向于植入心脏起搏器联合抗心律失常药物,但近年来越来越多的研究表明,与植入起搏器相比,射频消融能降低房性心动过速相关心律失常的住院率、有效控制房颤,改善患者预后及心力衰竭住院率。但同时部分患者存在固有窦房结功能障碍(SND),且SND可在部分患有房颤的患者中逐渐进展及加重。因此,房颤伴长间歇患者的一线治疗策略仍存在争议。本文以房颤伴长间歇治疗策略的选择进行综述。