Micromanaging cardiac regeneration:Targeted delivery of micro RNAs for cardiac repair and regeneration

The loss of cardiomyocytes during injury and disease can result in heart failure and sudden death, while the adult heart has a limited capacity for endogenous regeneration and repair. Current stem cell-based regenerative medicine approaches modestly improve cardiomyocyte survival, but offer neglectable cardiomyogenesis. This has prompted the need for methodological developments that crease de novo cardiomyocytes. Current insights in cardiac development on the processes and regulatory mechanisms in embryonic cardiomyocyte differentiation provide a basis to therapeutically induce these pathways to generate new cardiomyocytes. Here, we discuss the current knowledge on embryonic cardiomyocyte differentiation and the implementation of this knowledge in state-ofthe-art protocols to the direct reprogramming of cardiac fibroblasts into de novo cardiomyocytes in vitro and in vivo with an emphasis on micro RNA-mediated reprogramming. Additionally, we discuss current advances on state-of-theart targeted drug delivery systems that can be employed to deliver these micro RNAs to the damaged cardiac tissue. Together, the advances in our understanding of cardiac development, recent advances in micro RNAbased therapeutics, and innovative drug delivery systems, highlight exciting opportunities for effective therapies for myocardial infarction and heart failure.

“Second-generation” stem cells for cardiac repair

Over the last years, stem cell therapy has emerged asan inspiring alternative to restore cardiac function after myocardial infarction. A large body of evidence has been obtained in this field but there is no conclusive data on the efficacy of these treatments. Preclinical studies and early reports in humans have been encouraging and have fostered a rapid clinical translation, but positive results have not been uniformly observed and when present, they have been modest. Several types of stem cells, manufacturing methods and delivery routes have been tested in different clinical settings but direct comparison between them is challenging and hinders further research. Despite enormous achievements, major barriers have been found and many fundamental issues remain to be resolved. A better knowledge of the molecular mechanisms implicated in cardiac development and myocardial regeneration is critically needed to overcome some of these hurdles. Genetic and pharmacological priming together with the discovery of new sources of cells have led to a "second generation" of cell products that holds an encouraging promise in cardiovascular regenerative medicine. In this report, we review recent advances in this field focusing on the new types of stem cells that are currently being tested in human beings and on the novel strategies employed to boost cell performance in order to improve cardiac function and outcomes after myocardial infarction.

Roles of different types of collagens in cardiac repair after myocardial infarction

Background The cardiac extracellular matrix(ECM)undergoes ongoing modification following myocardial infarction(MI),driving the inflammation and repair response.Collagens,the major component of ECM,regulate the healing process uniquely after MI,where they are synthesized and accumulated to form scars in the infarcted area.Various types of collagens affect the repair response in different ways.Knowing the exact processes of collagen regulation can facilitate the development of new therapeutic options for associated disorders.In this review,we summarize the roles of various collagen types in heart repair after injury.

心脏原位巨噬细胞在小鼠心肌梗死后心脏修复中的作用

目的探讨心脏原位巨噬细胞在小鼠心肌梗死后心脏修复中的作用及其机制。方法将巨噬细胞特异性Cre工具鼠(Cx3cr1CreER–YFP小鼠)与双重转基因小鼠(R26tdTomato/DTR小鼠)进行杂交,获得心脏原位巨噬细胞特异性红色荧光标记小鼠。选择60只Cx3cr1CreER–YFP:R26Td/DTR杂交小鼠,随机分为4组:假手术组(Sham组)、白喉毒素+假手术组(DT+Sham组)、心肌梗死模型组(MI组)和白喉毒素+心肌梗死模型组(DT+MI组),每组15只小鼠。MI组和DT+MI组采用结扎冠状动脉左前降支法进行心肌梗死造模,DT+MI组小鼠使用白喉毒素(diphtheria toxin,DT)诱导心脏组织中原位巨噬细胞的缺失,构建心脏原位巨噬细胞敲除模型。小鼠心肌梗死造模第5天,对小鼠心脏组织切片进行苏木精和伊红(H-E)染色,观察炎症浸润情况以及心肌梗死面积;造模第14天,采用超声心动图测定小鼠心功能相关指标,并检测炎性细胞因子mRNA表达水平。结果与MI组相比,DT+MI组小鼠心脏原位巨噬细胞明显减少[(53.75±4.62)vs(6.37±1.25),P<0.05]。心肌梗死造模14 d,与MI组相比,DT+MI组小鼠左心室舒张末期内径[(5.11±0.22)mm vs(5.92±0.26)mm,P<0.05]和收缩末期内径[(4.77±0.17)mm vs(5.38±0.16)mm,P<0.05]显著增大,而射血分数显著降低[(27.76±1.20)%vs(17.61±0.94)%,P<0.05];此外,DT+MI组小鼠心脏炎性细胞因子表达水平上升,炎症细胞浸润增加,心肌梗死面积明显增大。DT+MI组小鼠NF-κB/p-P65的蛋白表达水平显著高于MI组[(0.28±0.14)vs(1.09±0.12),P<0.05]。结论心脏原位巨噬细胞在心肌梗死后通过减轻炎症细胞浸润和心肌梗死面积,在心肌梗死后心脏组织修复中发挥重要作用。

Cardiac stromal cells on stage:From dull filler to specialized actors

Cardiac stromal cells have faced through the years a significant evolution in their definitions concerning their phenotypes,markers,and functions.They are surging to key roles in physiopathology,becoming important targets to be exploited for cardiac repair.In this perspective,we briefly discuss their role in novel therapeutic strategies for enhancing cardiac repair and regeneration.

不同入路房间隔缺损修补术后患者心脏结构近期改变的比较

目的比较不同入路房间隔缺损修补术后患者心脏结构的近期改变。方法选取房间隔缺损修补术患者104例,根据入路方式分为左房微小切口组、右外侧切口组和正中切口组。比较各组体外循环时间、机械通气时间、术后引流量、术后住院时间、切口长度、重症监护时间、心脏结构变化及并发症情况。结果与正中切口组比较,左房微小切口组和右外侧切口组机械通气时间、术后住院时间、重症监护时间、切口长度缩短,术后引流量减少(P<0.05)。与术前比较,术后各组右房左右径和上下径、右室前后径缩小,左室舒张期末内径增大(P<0.05),且术后3个月较术后3天比较差异更显著(P<0.05),术后3天左房微小切口组和右外侧切口组与正中切口组比较差异更显著(P<0.05);术后3个月各组上述指标比较差异无显著性(P>0.05)。各组并发症比较差异无显著性(P>0.05)。结论左房微小切口、右外侧切口较正中切口入路房间隔缺损修补术近期矫正效果较好,但应根据患者实际情况选择合适术式。

以医护人员支持为导向的早期心脏康复护理模式在瓣膜修复合并搭桥围术期的应用效果

目的:探究瓣膜修复合并搭桥围术期以医护人员支持为导向的早期心脏康复护理模式的应用效果。方法:纳入2022年1月至2023年2月于阜外华中心血管病医院接受瓣膜修复合并搭桥手术患者90例作为研究对象,随机数字表法将纳入患者分为研究组(以医护人员支持为导向的早期心脏康复护理)、常规组(常规护理),各45例。观察常规护理、以医护人员支持为导向的早期心脏康复护理模式对纳入患者自护能力、心肺功能的影响。结果:干预后自护能力评分均高于干预前,研究组自护技能(32.22±9.65)分、自我概念(24.14±6.17)分、健康知识水平(35.17±3.82)分、自护责任感(20.24±3.16)分及自护能力总分(111.77±18.45)分高于常规组(t=3.553、2.462、2.239、3.295、3.612,P<0.05);干预后心肺功能指标均高于干预前,研究组氧脉搏(13.16±2.15)mL/次、最大摄氧量(18.07±2.71)mL/(min·kg)、无氧阈(15.08±2.65)mL/(min·kg)、左心室射血分数(50.65±7.46)%高于常规组(t=2.044、2.671、2.801、2.807,P<0.05)。结论:提供给瓣膜修复合并搭桥手术患者以医护人员支持为导向的早期心脏康复护理模式,可提高自护能力、改善心肺功能。

Off-Pump Multilayered Sutureless Repair for a Left Ventricular Blowout Rupture after Aortic Dissection Repair

A left ventricular (LV) free wall rupture is a highly lethal condition. A 75-year-old female who experienced chest pain was diagnosed as having an acute aortic dissection Stanford type A and underwent emergent surgery. Under cardiopulmonary bypass with LV venting through the right superior pulmonary vein, a proximal aortic stamp was formed. The patient was cooled, selective antegrade brain perfusion was performed, and a hemiarch repair was performed. After the patient was transferred to the intensive care unit, her blood pressure suddenly fell to 50 mmHg. She had a blowout rupture in the left ventricular anterolateral free wall. Since the bleeding hall was not large and the damage to the surrounding left ventricular tissue was not very wide, an off-pump multilayered sutureless repair was performed by using three layers of collagen fleece squares with fibrinogen-based impregnation (TachoComb;CSL Behring, Tokyo, Japan) and three layers of gelatin-resorcin-formalin glue reinforced by an equine pericardial patch (Xenomedica;Edwards Lifesciences, LLC, Irvine, CA). The blow-out rupture seemed to be caused by perioperative myocardial infarction generated by the compression of the left ventricular vent to the LV lateral wall. The patient was free from re-rupture or aneurysm enlargement. The thickness of the hemostatic material seemed to help control the bulging of the aneurysm and to prevent further LV aneurysm enlargement and re-rupture.

Impact of cardiac magnet resonance imaging on management of ventricular septal rupture after acute myocardial infarction

A 74-year-old man was admitted to the cardiac catheterization laboratory with acute myocardial infarction. After successful angioplasty and stent implantation into the right coronary artery, he developed cardiogenic shock the following day. Echocardiography showed ventricular septal rupture. Cardiac magnet resonance imaging (MRI) was performed on the critically ill patient and provided detailed information on size and localization of the ruptured septum by the use of fast MRI sequences. Moreover, the MRI revealed that the ventricular septal rupture was within the myocardial infarction area, which was substantially larger than the rupture. As the patient's condition worsened, he was intubated and had intra-aortic balloon pump implanted, and extracorporeal membrane oxygenation was initiated. During the following days, the patient's situation improved, and surgical correction of the ventricular septal defect could successfully be performed. To the best of our knowledge, this case report is the first description of postinfarction ventricular septal rupture by the use of cardiac MRI in an intensive care patient with cardiogenic shock and subsequent successful surgical repair.

心肌梗死后心脏修复中细胞外囊泡的应用及作用

背景:随着研究的进展,越来越多的证据表明间充质干细胞主要通过旁分泌机制来发挥治疗作用,细胞外囊泡是细胞的重要旁分泌成分,其在心血管领域引起了众多科研人员的关注。目的:综述细胞外囊泡治疗心肌梗死相关研究的进展,分析细胞外囊泡的临床应用前景。方法:应用计算机检索中国知网和Pub Med数据库收录的相关文献。中文检索词为“细胞外囊泡,心肌梗死,心脏修复”,英文检索词为“extracellular vesicles,mesenchymal stem cell,embryonic stem cell,induced pluripotent stem cell,cardiomyocyte,target,myocardial infarction,cardiac repair”。检索文献时限为2016-2021年,最终纳入70篇文献进行综述分析。结果与结论:(1)目前,已有不少研究成功地使用细胞外囊泡治疗心肌梗死并获得了可观的疗效,例如间充质干细胞来源细胞外囊泡和某些分化成熟的细胞来源细胞外囊泡都能通过抑制缺氧心肌细胞凋亡、促进梗死边缘区血管生成、抑制炎症发生发展或减少心肌纤维化的方式来帮助梗死心肌恢复正常生理结构和功能。(2)已经明确细胞外囊泡携带的一些内容物在心肌梗死治疗中的作用机制,其中有不少mi RNA在促进心肌修复的一些关键信号通路中发挥了重要作用,例如mi R-21,mi R-486-5p,mi R-144等。因此,更多的研究不再局限于使用天然来源的细胞外囊泡,而是进一步在细胞外囊泡中装载具有治疗效果的药物或对细胞外囊泡的膜成分进行修饰,从而提升它的心肌靶向能力及修复潜力。

用于心梗治疗的可注射载药水凝胶的设计和表征

阻止心脏纤维化是增强心脏功能的主要策略。本研究主要针对心梗部位组织再生困难、纤维蛋白沉积迅速等难题,设计并研制可抑制纤维化的心肌细胞外基质(ECM)和强力霉素复合水凝胶材料。将猪心经过SDS、TritonX-100溶液处理去除细胞内物质,再用胃蛋白酶将其溶解并加入载有54.63~89.27μg/mg强力霉素的丝素蛋白微囊,混合溶液在37℃环境中自发地形成水凝胶;使用扫描电镜观察复合水凝胶微和丝素蛋白微囊的结构,通过体外降解、药物缓释和心脏成纤维细胞培养实验来检测复合水凝胶治疗的可行性;最后对心梗大鼠进行体内治疗(n=9),并通过分析梗死面积和血流动力学变化来模拟临床治疗效果。结果显示,复合水凝胶具有密集的孔隙结构,相较于单独的载药微囊,直径1~3μm的多孔丝素蛋白微囊均匀分布在水凝胶中,不仅实现了药物缓释,还显著延长了水凝胶的降解时间。在复合水凝胶中9 d缓释了总载药量的13%,减少了成纤维细胞胶原沉积量。在大鼠体内治疗研究中复合水凝胶抑制了心脏纤维化,显著减小了心梗面积。经过4周治疗,心梗大鼠的LVSP和(dp/dt)max较于对照组的(73.52±4.24)mmHg和(1020.96±100.68)mmHg/s提高到(116.67±3.50)mmHg和(2359.24±133.06)mmHg/s,且均有显著性差异(P<0.01),表明心脏泵血能力增强。该复合水凝胶具有良好的生物相容性和缓释功能,以及抑制纤维化和增强心脏功能的能力,有望在临床治疗中发挥作用。

干细胞来源外泌体miRNA介导心脏修复的研究进展

在过去几十年中,急性心肌梗死采用开通罪犯冠状动脉和血运重建术等新技术已经显著改善了心肌梗死的预后,但仍有许多患者心肌梗死后出现不良的心脏重构及心力衰竭。随着心力衰竭的流行,急需一种新的治疗方法,无细胞疗法是一种很有前途的治疗方法,在多种急慢性心脏病中调节并促进心脏修复。现就干细胞来源外泌体微RNA在心肌损伤后介导心脏修复的研究进展进行综述。

哺乳动物心肌代谢与心脏再生

心血管疾病是目前全球重大的公共卫生问题,其中冠心病及急性心梗为主的心血管病死亡率处于持续上升阶段。由于成年哺乳动物心肌细胞的增殖能力非常有限,目前的治疗方法均无法逆转心肌受损后大量心肌细胞的丢失。哺乳动物心肌细胞的能量代谢胚胎期以糖酵解为主逐渐转变为出生后的脂肪酸氧化为主,而出生前后心肌细胞的能量代谢转变与其增殖能力变化高度相关。近几年来,通过诱导心肌细胞的代谢重编程促进心脏再生是心血管研究领域的前沿及热点。本文将就心肌细胞的生物学特性、诱导心肌再生的策略与研究进展,以及心脏代谢在其中的重要作用进行综述及展望。

蒙药额尔敦-乌日勒对心肌损伤的修复作用及机制探讨

目的:观察蒙药额尔敦-乌日勒对斑马鱼心脏损伤后再生作用及其可能作用机制,验证其治疗的有效性,为进一步研究蒙药额尔敦-乌日勒提供实验依据。方法:利用转基因鱼系Tg(vmhc:mCherry-NTR)经甲硝唑(MTZ)处理后建立心室损伤模型,把90只受精3 d(3 dpf,days post fertilization)的斑马鱼胚胎随机分为对照组(DMSO,n=30)和心肌消融组(MTZ,n=30)以及心室损伤后额尔敦-乌日勒治疗组(MTZ+EW,n=30),治疗组在MTZ处理后24 h(24 hpt,24 hour post treatment)用蒙药额尔敦-乌日勒混悬液以25μg/mL治疗。3组在72 hpt检测细胞增殖,用共聚焦显微镜观察细胞增殖情况并定量分析,同时应用RT-qPCR分析一氧化氮合酶(NOS)、诱导型一氧化氮合酶(iNOS)、肿瘤坏死因子-α(TNF-α)、白细胞介素-1β(IL-1β)、白细胞介素-6(IL-6)的表达量。结果:治疗组斑马鱼胚胎经过蒙药额尔敦-乌日勒治疗后,心肌损伤后的再生修复比例明显上升,且再生心肌细胞的增殖速度较对照组加快、炎症因子表达量明显低于对照组。结论:蒙药额尔敦-乌日勒能够促进斑马鱼胚胎心肌细胞的修复再生,并促进心肌细胞的增殖,抑制心室损伤后的炎症反应。

心脏脱细胞基质水凝胶制备及其对心肌梗死修复的研究进展

心肌组织通过物理、化学或其他方法进行脱细胞处理后,制备成的脱细胞基质含有许多细胞外基质成分,包括蛋白质、胶原、多糖以及生长因子等,不仅对细胞生长有很好的生物相容性,而且还能有助于细胞的修复和再生,是一种很有前途的心血管修复材料。脱细胞基质水凝胶是将脱细胞基质进行凝胶化后,所形成的一种具有生物相容性、可降解性以及可注射性的生物材料,不仅保留了脱细胞基质本身的优点,而且增加了可注射性这一优势,可在心肌梗死后进行微创注射,从而对心脏产生修复作用。

经导管二尖瓣缘对缘修复术患者心脏康复中国专家共识

经导管二尖瓣缘对缘修复术(TEER)是治疗重度二尖瓣反流的重要手段。基于TEER病理生理特点的全程心脏康复可减少TEER患者手术并发症、降低再发心血管事件和死亡风险,提高生活质量和改善预后。为了规范TEER患者心脏康复,中国医师协会心血管内科医师分会、中国康复医学会心脏介入治疗和康复专业委员会、中国医院协会心脏康复管理专业委员会联合制订本专家共识,为TEER患者提供从住院到居家全流程综合康复管理方案,对个体化康复评估、康复教育、运动康复、药物治疗,营养、心理、睡眠和戒烟等相关问题干预提供有证据支持的建议。

术前预康复训练对二尖瓣修复术患者的影响价值分析

目的研究运用呼吸功能训练器进行术前预康复训练对二尖瓣修复术患者术后康复时间、心功能及血清学指标的影响。方法选取河南科技大学第一附属医院2021年5月至2022年5月期间80例行二尖瓣修复术患者随机分组,对照组40例给予常规呼吸训练,观察组40例给予呼吸功能训练器进行术前预康复训练,对比两组患者术后康复时间、心功能、血清学指标和并发症。结果观察组干预后,舒张早期二尖瓣血流速度与舒张早期二尖瓣环运动速度比值(E/e')、左房容积指数(LAVI)水平低于对照组,左室射血分数(LVEF)、6 min步行试验(6MWT)水平高于对照组(P<0.05);观察组干预后,微小核糖核酸-29b(miR-29b)、超氧化物歧化酶(SOD)水平均高于对照组;观察组患者术后ICU住院时间、带呼吸机时间及总住院时间均低于对照组(P<0.05);两组患者术后肺部感染、心律失常、心功能不全等并发症发生率比较,差异无统计学意义(P>0.05)。结论运用呼吸功能训练器进行术前预康复训练对二尖瓣修复术患者效果确切,能够改善患者心功能,提高康复速度。

抗阻训练对心梗大鼠心肌Neuregulin-1的表征和心脏结构与功能的影响

目的：探讨抗阻训练对心梗（Myocardial Infarction,MI）大鼠心肌组织中神经调节蛋白（Neuregulin-1,NRG1）及其信号通路表达的影响及其对心脏结构与功能的保护效应。方法：3月龄雄性SD大鼠,体重180~220g,随机分为假手术组（Sham）、心梗组（MI）和心梗抗阻训练组（MR）,每组10只。MI和MR组结扎左冠脉前降支（LAD）,建立MI模型。其中MR组于术后1周进行为期4周的抗阻训练,结束后测定心功能;采用石蜡切片和HE、Masson染色技术观察并计算组织形态学变化和胶原容积分数（Collagen volume fraction,CVF）,采用免疫组化、Real Time-qPCR和Western Blotting技术检测心肌血管新生、细胞凋亡等相关蛋白α-SMA、CD105、BCL-2和Bax以及NRG1及其受体ErbB2/4和下游信号通路蛋白的表达变化。结果：抗阻训练有效提升了MI大鼠心功能,改善心肌细胞病理性肥大;促进非梗死区心肌α-SMA和CD105表达、显著升高BCL-2/Bax比值;显著增加MI大鼠心肌NRG1蛋白的表达和erbb2mRNA表达,升高PI3K-Akt和ERK1/2的磷酸化水平。结论：本研究发现,抗阻训练可改善MI心脏的病理性重塑,促进非梗死区血管新生,抑制心肌细胞凋亡,安全有效的改善MI心脏的功能;抗阻训练可促进心肌NRG1及其ErbBs的表达,其心脏的保护效应与心肌NRG1/ErbBs及PI3K/Akt和ERK1/2信号通路激活有关。

促进移植干细胞存活、分化和修复坏死心肌的策略

移植干细胞在缺血心肌微环境中的低存活率是影响干细胞移植治疗效果的关键。通过采取干预措施即利用细胞因子、药物、化合物等对移植干细胞进行体外预处理,或采用有利于干细胞存活、黏附或促进血管形成的基因对干细胞进行修饰,可直接和间接地提高干细胞在缺血心肌微环境中的存活和分化能力,从而有助于促进移植干细胞修复坏死心肌和改善心功能。

胚胎干细胞对孕鼠缺血受损心肌的修复作用

目的探讨胎鼠胚胎干细胞是否可通过血液循环系统进入怀孕母体,并对孕鼠缺血损伤的心肌组织进行修复。方法将24只6~8周龄C57雌性小鼠随机分为假手术组（n=8）、手术＋受孕组（n=8）和手术组＋未受孕组（n=8）,通过结扎冠状动脉左前降支的方法制作心肌梗死模型,并将手术后受孕组小鼠与e-GFP转基因雄鼠进行杂交。三组小鼠分别在术前、术后和孕产后进行心电图和超声心动检测,比较其心功能的变化;通过免疫组织化学染色,观察各组小鼠心肌结构的变化,并检测孕鼠心肌是否表达荧光蛋白,以确定是否存在胚胎来源的Gfp阳性细胞。同时通过普通半定量PCR扩增技术检测孕鼠血液DNA中是否存在Gfp基因。结果手术＋受孕组及手术＋未受孕组小鼠术后心电图结果可见其ST段具有显著抬高,提示出现明显的心肌缺血表现,而手术＋受孕组小鼠产后心电图结果提示其缺血症状较孕前减轻。超声结果也证实手术后小鼠均出现明显的心肌梗死表现,手术＋受孕组小鼠产后心腔结构虽较孕前未见明显改变,各项心功能指标较假手术组减低,但与手术＋未受孕组相比,心功能指标明显升高（P〈0.05）。此外,通过免疫组化染色和PCR检测发现手术＋受孕组心肌梗死区域具有GFP阳性表达,而其他两组均为GFP阴性。结论胎鼠的胚胎干细胞可透过胎盘屏障,随血液迁移至母孕鼠体内,并对缺血损伤的心肌进行修复。