基于对比增强经颅多普勒的多模式超声评估卵圆孔未闭相关右向左分流的临床意义

目的研究对比增强经颅多普勒(c-TCD)与经食管超声心动图声学造影(c-TEE)评估卵圆孔未闭(PFO)相关右向左分流(RLS)的临床意义。方法回顾性连续纳入2020年1月至2022年6月在苏州大学附属第一医院因头晕、晕厥、偏头痛、缺血性卒中或短暂性脑缺血发作(TIA)等临床表现就诊,临床可疑RLS的患者243例,所有患者均完成c-TCD、TEE和c-TEE检查。分析c-TCD、c-TEE对PFO-RLS的检出结果。采用McNemar-Bowker检验比较c-TCD和c-TEE对PFO-RLS的半定量分级;并分析c-TCD评估下PFO-RLS分流类型、分流等级及与PFO直径和隧道长度的关系。结果纳入的243例患者中,偏头痛及头晕、晕厥等占71.2%(173/243),缺血性卒中或TIA占28.8%(70/243)。以TEE结合c-TEE结果为参考标准,确诊232例PFO-RLS。c-TCD、c-TEE对PFO-RLS的检出率均为99.1%(230/232)。c-TCD检查:静息状态、传统Valsalva动作、定量Valsalva动作时,大量分流的检出率分别为20.7%(48/232)、41.4%(96/232)、67.7%(157/232),两两比较差异均有统计学意义(P均<0.001)。c-TEE检查:静息状态、腹部加压下,小量分流的检出率分别为18.1%(42/232)、32.8%(76/232),中量分流的检出率分别为0.9%(2/232)、25.0%(58/232),大量分流的检出率分别为3.0%(7/232)、41.4%(96/232)。c-TCD与c-TEE评估的PFO-RLS分流等级差异有统计学意义(Boweker检验值为51.524,P<0.001)。小量分流,c-TEE检出率高于c-TCD(χ^(2)=5.222,P=0.022);中量分流,c-TEE检出率高于c-TCD(χ^(2)=20.885,P<0.001);大量分流,c-TCD检出率高于c-TEE(χ^(2)=53.923,P<0.001)。34.9%(81/232)的患者分流等级c-TCD高于c-TEE;55.6%(129/232)的患者c-TCD和c-TEE评估的分流等级相同;9.5%(22/232)的患者分流等级c-TCD低于c-TEE。c-TCD评估下固有型RLS的PFO直径大于潜在型RLS的PFO直径(P<0.05),隧道长度差异无统计学意义(P>0.05)。PFO-RLS分流等级与PFO直径呈正相关(r=0.307,P<0.05),与隧道长度无相关性(P>0.05)。结论c-TCD是评估RLS的有效血流动力学依据,充分的Valsalva动作下c-TDC可为PFO-RLS提供可靠的半定量诊断结果,c-TEE可明确RLS的来源,两者共同联合可为个体化诊断提供科学依据。

椎动脉椎间段血流动力学参数评估椎动脉颅内段狭窄性病变的效能及可行性研究

目的分析椎动脉椎间段血流动力学参数变化,探讨其评估椎动脉颅内段狭窄性病变的效能及可行性。方法回顾性连续纳入2019年1月至2022年9月于苏州大学附属第一医院行颈部血管超声检查且经CT血管造影(CTA)和(或)数字减影血管造影(DSA)证实有椎动脉颅内段不同程度狭窄或闭塞者279例作为研究组,并纳入同期行颈部血管超声且结果未见明显异常的98例健康体检者作为对照组。根据椎动脉颅内段狭窄程度将研究组分为轻度狭窄组74例、中度狭窄组36例、重度狭窄位于分出小脑后下动脉(PICA)后组(重度狭窄-PICA后组)31例、重度狭窄位于分出PICA前组(重度狭窄-PICA前组)46例、闭塞位于分出PICA后组(闭塞-PICA后组)48例及闭塞位于分出PICA前组(闭塞-PICA前组)44例。各组患者均应用颈部血管超声测量患侧及健侧椎动脉椎间段的血流参数,包括椎动脉直径(VAD)、收缩期峰值流速(PSV)、舒张期末流速(EDV)、阻力指数(RI)。比较各组双侧椎动脉椎间段各血流参数的差异;计算EDV比值(患侧EDV/健侧EDV),并对对照组右侧与各研究组患侧相邻狭窄程度两组的椎间段血流动力学参数进行比较;应用ROC曲线分析各参数诊断椎动脉颅内段狭窄性病变的敏感度、特异度、准确性,并确定最佳诊断界值;采用Spearman相关分析颅内段严重狭窄程度与后循环缺血性卒中的相关性。结果各组两侧椎间段VAD、PSV、EDV、RI比较,中度及以下狭窄各组中各参数差异均无统计学意义(P均>0.01),而重度及以上狭窄各组中,各参数差异均有统计学意义(P均<0.01)。研究组患侧及对照组右侧相邻两组椎间段血流参数比较,中度及以下狭窄各组中,除对照组与轻度狭窄组EDV外,余各参数差异均无统计学意义(P均>0.01);而中度及以上狭窄各组中,除中度狭窄组与重度狭窄组PSV外,余各参数差异均有统计学意义(P均<0.01)。ROC曲线分析显示,EDV及EDV比值诊断重度狭窄的曲线下面积(AUC)分别为0.898(95%CI:0.857~0.931)、0.943(95%CI:0.909~0.967),最佳截断值分别为11.00 cm/s、0.69;EDV及EDV比值诊断闭塞-PICA后的AUC分别为0.917(95%CI:0.882~0.944)、0.903(95%CI:0.868~0.933),最佳截断值分别为9.00 cm/s、0.56;EDV及EDV比值诊断闭塞-PICA前的AUC分别为0.983(95%CI:0.964~0.993)、0.987(95%CI:0.969~0.996),最佳截断值分别为2.00 cm/s、0.20。椎动脉颅内段重度狭窄及以上各组中,狭窄程度与后循环缺血性卒中呈正相关关系(rs=0.227,P=0.0003)。结论颈部血管超声测量椎动脉椎间段各血流动力学参数对颅内段重度狭窄及闭塞具有较高的诊断效能,并能判断闭塞部位与PICA的毗邻关系,为临床治疗及预后的判断提供参考。

颈部血管超声在粥样硬化斑块易损性评估中的应用价值

目的运用颈部血管超声(CDU)及高分辨率磁共振成像(HRMRI)评估颈动脉粥样硬化斑块性质,探究CDU对于评估粥样硬化斑块性质的应用价值。方法回顾性连续纳入2017年8月至2020年12月于苏州大学附属第一医院卒中中心因急性缺血性卒中或短暂性脑缺血发作等就诊,并分别经CDU及HRMRI检查确诊颈动脉存在责任斑块的患者85例。CDU根据颈动脉粥样硬化斑块形态、回声、纤维帽完整与否、有无溃疡等评估斑块性质,将其分为易损斑块和稳定斑块。HRMRI依据动脉粥样硬化斑块MRI分型标准评估斑块性质,亦分为易损斑块和稳定斑块。以HRMRI评估结果作为无创“金标准”,绘制CDU评估斑块易损性的ROC曲线,得出曲线下面积、敏感度、特异度、约登指数。并采用Kappa检验分析CDU与HRMRI评估斑块易损性的一致性。结果85个责任斑块中,HRMRI评估易损斑块49个(49/85,57.6%),CDU评估易损斑块46个(46/85,54.1%),根据ROC曲线得出CDU评估颈动脉易损斑块的ROC曲线下面积为0.921,敏感度为89.8%,特异度为94.4%,约登指数为0.842。Kappa检验结果显示,CDU与HRMRI评估颈动脉粥样硬化斑块性质的一致性强(Kappa值=0.833,P<0.05)。CDU与HRMRI评估颈动脉易损斑块有关特征:脂质坏死核/斑块内出血、钙化、溃疡型斑块、血栓形成、纤维帽状态的Kappa值分别为0.905、0.875、0.839、0.822、0.719。结论CDU为评估颈动脉粥样硬化斑块易损性的有效方法,能够为治疗方案的选择提供充分的依据。

The role of porosity and 3D cross-stent configuration of multiple overlapping uncovered stents in the management of complex aortic aneurysms-Insights from haemodynamics

Background:Multiple overlapping uncovered stents(MOUS)have been introduced to manage complex aortic aneurysms with vital branches involvement.It has been shown that the porosity is a key determinant of the treatment outcome.However,the role of 3D cross-stent configuration remains unclear.Methods:One patient with a complex aortic aneurysm judged not suitable for open surgery nor endovascular repair was invited to participate this study.In total,four bare metal stents were deployed.3D lesion geometry was reconstructed based on pre-and post-operative CTA,and the zero-pressure configuration was recovered using an inverse procedure.Local haemodynamic parameters,including wall shear stress(WSS),oscillatory shear index(OSI),and particle relative resident time(RRT),as well as the vessel structural stress(VSS),were quantified using one-way fluid-structure interaction(FSI)analysis.In comparison to MOUS,a corresponding compact model was reconstructed by projecting inner layer stents to the most outer layer to form a single layer to eliminate the 3D cross-stent configuration and one-way FSI analysis was performed.Results:Results obtained showed that the porosity decreased linearly with the number of stents.When the 1st stent was deployed,the mean velocity decreased 36.4%and further reduction of 49.3%,59.8%,and 62.8%were observed when the 2nd,3rd and 4th stents were deployed.WSS also decreased with the number of stents deployed,and both OSI and RRT increased,but the increase was very minor with the 4th stent.MOUS deployment induced high VSS concentration in the landing zone while the VSS and pressure in the sac remained nearly unchanged.The compact model yielded a small difference in the value of flow-related parameters and 10%–20%reduction in VSS.Conclusion:Compared with porosity,the 3D cross-stent of MOUS configuration plays a minor role in the modulation of local haemodynamics.A compact model does not reduce high VSS concentration in the diseased region significantly.