Pearce Daniel P, Nemcek Mark T, Witzenburg Colleen M
Department of Biomedical Engineering, University of Wisconsin-Madison, Madison, WI 53706 USA.
Biophys Rev. 2023 Jun 10;15(3):329-353. doi: 10.1007/s12551-023-01068-3. eCollection 2023 Jun.
Myocardial infarctions (MIs) kickstart an intense inflammatory response resulting in extracellular matrix (ECM) degradation, wall thinning, and chamber dilation that leaves the heart susceptible to rupture. Reperfusion therapy is one of the most effective strategies for limiting adverse effects of MIs, but is a challenge to administer in a timely manner. Late reperfusion therapy (LRT; 3 + hours post-MI) does not limit infarct size, but does reduce incidences of post-MI rupture and improves long-term patient outcomes. Foundational studies employing LRT in the mid-twentieth century revealed beneficial reductions in infarct expansion, aneurysm formation, and left ventricle dysfunction. The mechanism by which LRT acts, however, is undefined. Structural analyses, relying largely on one-dimensional estimates of ECM composition, have found few differences in collagen content between LRT and permanently occluded animal models when using homogeneous samples from infarct cores. Uniaxial testing, on the other hand, revealed slight reductions in stiffness early in inflammation, followed soon after by an enhanced resistance to failure for cases of LRT. The use of one-dimensional estimates of ECM organization and gross mechanical function have resulted in a poor understanding of the infarct's spatially variable mechanical and structural anisotropy. To resolve these gaps in literature, future work employing full-field mechanical, structural, and cellular analyses is needed to better define the spatiotemporal post-MI alterations occurring during the inflammatory phase of healing and how they are impacted following reperfusion therapy. In turn, these studies may reveal how LRT affects the likelihood of rupture and inspire novel approaches to guide scar formation.
心肌梗死(MI)引发强烈的炎症反应,导致细胞外基质(ECM)降解、心肌壁变薄和心室扩张,使心脏易于破裂。再灌注治疗是限制心肌梗死不良影响的最有效策略之一,但及时实施具有挑战性。晚期再灌注治疗(LRT;心肌梗死后3小时以上)并不能限制梗死面积,但确实能降低心肌梗死后破裂的发生率,并改善患者的长期预后。20世纪中叶采用LRT的基础研究表明,梗死扩展、动脉瘤形成和左心室功能障碍均有有益的减少。然而,LRT发挥作用的机制尚不清楚。结构分析主要依赖于对ECM组成的一维估计,当使用来自梗死核心的均匀样本时,在LRT和永久闭塞动物模型之间未发现胶原含量有显著差异。另一方面,单轴测试显示,在炎症早期刚度略有降低,随后不久,LRT病例的抗破坏能力增强。对ECM组织和总体力学功能的一维估计导致对梗死灶空间可变的力学和结构各向异性了解不足。为了解决文献中的这些空白,未来需要开展全场力学、结构和细胞分析工作,以更好地定义愈合炎症阶段心肌梗死后发生的时空变化,以及再灌注治疗后这些变化如何受到影响。反过来,这些研究可能揭示LRT如何影响破裂的可能性,并激发指导瘢痕形成的新方法。