The Compensatory Mechanisms in The Course of the Diastolic Dysfunction Development at Stress Cardio-myopathy.

IF 0.5 4区医学 Q4 CARDIAC & CARDIOVASCULAR SYSTEMS

Kardiologiya Pub Date : 2025-08-06 DOI:10.18087/cardio.2025.7.n2880

V L Lakomkin, A A Abramov, A V Prosvirnin, G Z Mikhaylova, A D Ulanova, Yu V Gritsyna, I M Vikhlyantsev, V I Kapelko

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Abstract

Aim To study the activation sequence of compensatory mechanisms during the development of diastolic dysfunction.Material and methods The study was performed on rats with stress cardiomyopathy induced by high doses of isoproterenol (120 mg/kg twice a day). Heart function was studied 3-5 and 8-10 days after the injection by echocardiography and left ventricular (LV) catheterization. The content, isoform composition of the sarcomeric protein connectin (titin) and its mRNA content were also measured.Results The early period was characterized by the presence of systolic dysfunction evident as a decrease in the minute volume due to impaired myocardial LV contractility, and slower LV filling and relaxation. Compensatory changes at this stage were manifested as increases in the left atrial volume and diastolic pause duration due to reduced contraction rate and arterial elasticity. The content of the more compliant N2BA connectin isoform and its mRNA was increased. These changes facilitated increases in LV filling and ejection. In the second period, diastolic dysfunction developed, when the minute volume, contraction rate and LV contractility became normal, although the left atrial pressure remained elevated, and the aortic diameter and LV wall thickness increased. The increased content of the N2BA isoform remained, and this was associated with stable slowing of LV relaxation.Conclusion The study showed that in the initial period, compensation is achieved by urgent mobilization of the circulatory system, while the improvement in myocardial contractility is secondary.

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应激性心肌病舒张功能障碍发展过程中的代偿机制。

目的研究舒张功能障碍发生过程中代偿机制的激活顺序。材料与方法采用大剂量异丙肾上腺素（120mg /kg， 2次/ d）诱导应激性心肌病大鼠。注射后3 ~ 5天、8 ~ 10天分别行超声心动图和左室置管观察心功能。测定了肌合成蛋白连接蛋白（titin）的含量、异构体组成及其mRNA的含量。结果早期以收缩功能障碍为特征，表现为心肌左室收缩性受损导致的分钟容积减少，左室充盈和舒张减慢。这一阶段的代偿性变化表现为由于收缩率和动脉弹性降低，左心房容积和舒张暂停时间增加。更具顺应性的N2BA连接蛋白异构体及其mRNA的含量增加。这些变化促进左室充盈和射血增加。第二阶段出现舒张功能障碍，分容、收缩率和左室收缩力恢复正常，但左房压仍升高，主动脉直径和左室壁厚增加。N2BA异构体含量的增加仍然存在，这与左室舒张的稳定减慢有关。结论研究表明，在初期，代偿是通过循环系统的紧急动员来实现的，而心肌收缩力的改善是次要的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Kardiologiya 医学-心血管系统

CiteScore

1.70

自引率

20.00%

发文量

审稿时长

3-8 weeks

期刊介绍： “Kardiologiya” (Cardiology) is a monthly scientific, peer-reviewed journal committed to both basic cardiovascular medicine and practical aspects of cardiology. As the leader in its field, “Kardiologiya” provides original coverage of recent progress in cardiovascular medicine. We publish state-of-the-art articles integrating clinical and research activities in the fields of basic cardiovascular science and clinical cardiology, with a focus on emerging issues in cardiovascular disease. Our target audience spans a diversity of health care professionals and medical researchers working in cardiovascular medicine and related fields. The principal language of the Journal is Russian, an additional language – English (title, authors’ information, abstract, keywords). “Kardiologiya” is a peer-reviewed scientific journal. All articles are reviewed by scientists, who gained high international prestige in cardiovascular science and clinical cardiology. The Journal is currently cited and indexed in major Abstracting & Indexing databases: Web of Science, Medline and Scopus. The Journal''s primary objectives Contribute to raising the professional level of medical researchers, physicians and academic teachers. Present the results of current research and clinical observations, explore the effectiveness of drug and non-drug treatments of heart disease, inform about new diagnostic techniques; discuss current trends and new advancements in clinical cardiology, contribute to continuing medical education, inform readers about results of Russian and international scientific forums; Further improve the general quality of reviewing and editing of manuscripts submitted for publication; Provide the widest possible dissemination of the published articles, among the global scientific community; Extend distribution and indexing of scientific publications in major Abstracting & Indexing databases.