La teoría de la banda miocárdica. Nuevos descubrimientos que apoyan el complejo mecanismo de torsión miocárdica

Trainini, Jorge C.; Llabata, Vicente Mora; Lowenstein, Jorge; Beraudo, Mario; Wernicke, Mario; Trainini, Alejandro

doi:10.37615/retic.v3n1a4

Cited by 5 publications

(8 citation statements)

References 9 publications

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“…This occurs when the left ventricle dilates in cardiac remodeling and the bers miss their oblique orientation, loosing muscular and mechanical e ciency. (11) In the progression from the ventricular base to the apex, the number of horizontal bers decreases in relation to the oblique bers, showing that the heart is organized as a continuous muscle helix (Fig. 3).…”

Section: Resultsmentioning

confidence: 96%

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Cardiac Helical Function

Jorge

Lowenstein²,

Beraudo³

et al. 2020

Preprint

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Background. The aim of this study was to investigate: a) the starts and ends of the myocardial band; b) the slippage between the band segments, when performing both torsion and ventricular detorsion, implies that there should be an antifriction mechanism that avoids dissipating the energy; c) the electrical activation of the endocardial and epicardial bands and secondarily understand ventricular twist and the mechanism of active suction during the diastolic isovolumic phase. Methods. They were used: a) Ten young-bovine hearts (800-1000 g) and seven human hearts (one embrión, 4 g; one 10 years, 250 g and five adult, 300 g/average); b) five patients with no structural cardiac abnormalities and normal QRS complexes underwent three-dimensional endoepicardial electroanatomic mapping. Results. We have found in all the bovine and human hearts studied a nucleus (fulcrum) underlying the right trigone, whose osseus, chondroid or tendinous histological structure depends on the specimen analyzed. All the hearts studied presented myocardial attachment to the rigid structure of the fulcrum. Hyaluronic acid was found in the cleavage planes between the myocardial bundles.Endo-epicardial mapping demonstrates an electrical activation sequence in the area of the apex loop in agreement with the synchronic contraction of the descending and ascending band segments, consistent with the mechanism of ventricular twist. The late activation of the ascending band segment is consistent with its persistent contraction during the initial period of the isovolumic diastolic phase (the basis of the suction mechanism). Conclusions. The finding of the fulcrum gives support to the spiral myocardial band being the point of fixation that allows the helicoidal torsion. The hyaluronic acid would act as a lubricant and provide great resistance to mechanical pressures. This study explains the ventricular twist and the active suction mechanism during the isovolumic diastolic and early ventricular filling phases.Trial. This work does not correspond to a trial

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Section: Resultsmentioning

confidence: 96%

“…Both ends are xed by an osseous, chondroid or tendinous nucleus, depending on the different species (animal or human) used in the studies. This nucleus, which we have called cardiac fulcrum (1,11), is the only perceptible edge where the muscle band bers originate and end (Figs. 5 and 6).…”

Section: Resultsmentioning

confidence: 99%

Cardiac Helical Function

Jorge

Lowenstein²,

Beraudo³

et al. 2020

Preprint

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“…Fiber orientation defines function and thus the ejection fraction is 60% when the normal helical fibers contract and falls to nearly 30% if only the transverse fibers shorten, reaching 15-20% if only the subendocardial longitudinal fibers are deformed. This occurs when the left ventricle dilates in cardiac remodeling and the fibers miss their oblique orientation, losing muscular and mechanical efficiency [11].…”

Section: Resultsmentioning

confidence: 99%

Untitled

2023

OJCRR

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“…In the progression from the ventricular base to the apex, the number of horizontal fibers decreases in relation to the oblique fibers, showing that the heart is organized as a continuous muscle helix [11] (Figure 3). Myocardial muscle bundles and bands, which derive from phylogenetic development, essentially shape a master axis of precise dynamic requirement.…”

Section: Myocardic Architecturementioning

confidence: 99%

“…Both ends are fixed by an osseous, chondroid or tendinous nucleus, depending on the different species (animal or human) used in the studies. This nucleus, which we have called cardiac fulcrum, is the only perceptible edge where the muscle band fibers originate and end [1,11] In the myocardium we can distinguish the basal and apical loops.…”

Section: Segmentation Of the Continuous Myocardiummentioning

confidence: 99%

Cardiac Helical Function. Fulcrum and Torsion

Trainini¹

2022

Jap J Clin & Med Res

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Background: The aim of this study was to investigate: a) the starts and ends of the continuous myocardium; b) the slippage between the myocardial segments, when performing both torsion and ventricular detorsion, implies that there should be an antifriction mechanism that avoids dissipating the energy; c) the electrical activation of the endocardial and epicardial myocardium and secondarily understand ventricular twist and the mechanism of active suction during the diastolic isovolumic phase.

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La teoría de la banda miocárdica. Nuevos descubrimientos que apoyan el complejo mecanismo de torsión miocárdica

Cited by 5 publications

References 9 publications

Cardiac Helical Function

Cardiac Helical Function

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Cardiac Helical Function. Fulcrum and Torsion

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