Comparative pathomorphological study of contractile myocardium under conditions of increased left and right ventricular afterload

Tverskaya, M. S.; Od, Mishnev; Raksha, A. P.; Karpova, V. V.; Sukhoparova, V. V.; Измаилова, Н. С.; Virganskii, A. O.; Kadyrova, M. Kh.; Abdulkerimova, N. Z.

doi:10.1007/s10517-005-0140-6

Cited by 7 publications

(3 citation statements)

References 4 publications

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“…Moreover, in-vitro studies have shown similar intrinsic properties of myofibers from the left and right ventricles, including their response to pressure and volume overload conditions [23,24]. Because the pathophysiology of left ventricular (LV) response to chronic aortic regurgitation has been studied in great detail [25-27], it is worth considering the sequence of events here.…”

Section: Pathophysiology Of Repaired Tofmentioning

confidence: 99%

Repaired tetralogy of Fallot: the roles of cardiovascular magnetic resonance in evaluating pathophysiology and for pulmonary valve replacement decision support

Geva

2011

Journal of Cardiovascular Magnetic Resonance

505

323

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Surgical management of tetralogy of Fallot (TOF) results in anatomic and functional abnormalities in the majority of patients. Although right ventricular volume load due to severe pulmonary regurgitation can be tolerated for many years, there is now evidence that the compensatory mechanisms of the right ventricular myocardium ultimately fail and that if the volume load is not eliminated or reduced by pulmonary valve replacement the dysfunction might be irreversible. Cardiovascular magnetic resonance (CMR) has evolved during the last 2 decades as the reference standard imaging modality to assess the anatomic and functional sequelae in patients with repaired TOF. This article reviews the pathophysiology of chronic right ventricular volume load after TOF repair and the risks and benefits of pulmonary valve replacement. The CMR techniques used to comprehensively evaluate the patient with repaired TOF are reviewed and the role of CMR in supporting clinical decisions regarding pulmonary valve replacement is discussed.

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Section: Pathophysiology Of Repaired Tofmentioning

confidence: 99%

Repaired tetralogy of Fallot: the roles of cardiovascular magnetic resonance in evaluating pathophysiology and for pulmonary valve replacement decision support

Geva

2011

Journal of Cardiovascular Magnetic Resonance

505

323

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“…In addition, aggravated stenosis of the aorta was associated with reduction of NAD-diaphorase activity and increase of NADP-diaphorase activity, as a result of which their proportion decreased in comparison with the control and reached 1. cardial hyperfunction [5] or reaction to deep injuries in its structure [7]. The reactive variant was confi rmed by the results of a previous study [10] which found the most signifi cant (by volume and severity) cardiomyocyte injuries in stenosis of the aorta aggravated by heart failure. Desymapthization of the myocardium and predominance of the adrenal component in the structure of the sympathoadrenal effects on the heart could promote the development of structural and metabolic changes in contractile cardiomyocytes under conditions of complicated stenosis of the aorta [9].…”

Section: Resultsmentioning

confidence: 89%

Histoenzymological Characteristics of the Contractile Myocardium in Experimental Stenosis of the Aorta

et al. 2011

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Contractile cardiomyocyte metabolism was studied by histochemical methods in experimental stenosis of the aorta complicated and not by heart failure. Acceleration of the citric acid cycle, more intense oxidation of free fatty acids and their metabolites, glycolysis intensifi cation, and higher activity of shuttle mechanisms were found in the contractile cardiomyocytes in stenosis of the aorta not complicated by heart failure. The presence of these metabolic shifts in the myocardium of all studied compartments suggests their association with not only more intense heart work, but also with the effects of total systems neurohumoral factors. Comparative study of myocardial metabolism in two variants of experimental stenosis of the aorta has revealed changes prognostically unfavorable for the development of heart failure. These changes include exhaustion of glycogen reserve, glycolysis inhibition, and metabolism shift towards biosynthetic processes. These data indicate an important role of glycolysis in support of myocardial contractile function during the acute phase of pressure overloading of the heart. Address for correspondence: mtver@rsmu.ru. M. S. TverskayaThe contractile function of the myocardium and its metabolism are closely related. Metabolic changes in the contractile cardiomyocytes underlie heart adaptation to increase of hemodynamic loading and to heart failure [5,6]. Experimental stenosis of the aorta traditionally serves as the basic model for studies of the mechanisms of compensatory hyperfunction of the heart. Studies of the myocardium of not only hemodynamically overloaded left ventricle (LV), but also of right ventricle (RV) and interventricular septum (IVS) are an important methodological approach to these studies, due to which it is possible to differentiate the changes emerging as a result of hyperfunction from changes caused by total systems factors (common for all compartments of the heart). Comparative study of these processes under conditions of experimental stenosis of the aorta complicated or not by heart failure is particularly interesting, as it demonstrates the prognostically unfavorable changes associated with the development of heart failure.We studied by histochemical methods the metabolism of contractile cardiomyocytes in LV, RV, and IVS in experimental stenosis of the aorta complicated and not by heart failure.

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“…Our previous studies have shown that pressure overload of one ventricle leads to an increase in the number of damaged contraction cardiomyocytes (in contrast to conduction ones) in the walls of both cardiac ventricles [7]. This means that structural disorders in contraction cardiomyocytes can be caused by changes in the heart work and by systemic alterative factors, among which the sympathoadrenal system is assumed to play an important one.…”

Section: Resultsmentioning

confidence: 99%

Pathomorphology of the Heart Conduction System: Comparative Study during Increase in Left or Right Ventricular Afterload

et al. 2011

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Pathomorphology of the peripheral compartments of the heart conduction system under conditions of increased left or right ventricular afterload is characterized by interstitial edema, hemorrhages, and reversible and irreversible focal lesions. The percentage of damaged conduction cardiomyocytes increases in the wall of hemodynamically overloaded ventricle and in the ventricular septum. These changes are more pronounced in cases when the afterload increase is complicated by heart failure development. Acute dilatation of the heart and distention of the myocardium are events of great specific significance in the genesis of the conduction system disorders developing under conditions of increased right ventricular afterload in comparison with those developing under conditions of increase left ventricular afterload. These data attest the presence of a pathomorphological base for the appearance of arrhythmias during the acute phase of pressure overload of the heart, especially in cases when it is aggravated by heart failure.

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Comparative pathomorphological study of contractile myocardium under conditions of increased left and right ventricular afterload

Cited by 7 publications

References 4 publications

Repaired tetralogy of Fallot: the roles of cardiovascular magnetic resonance in evaluating pathophysiology and for pulmonary valve replacement decision support

Repaired tetralogy of Fallot: the roles of cardiovascular magnetic resonance in evaluating pathophysiology and for pulmonary valve replacement decision support

Histoenzymological Characteristics of the Contractile Myocardium in Experimental Stenosis of the Aorta

Pathomorphology of the Heart Conduction System: Comparative Study during Increase in Left or Right Ventricular Afterload

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