Proceedings ArticleDOI
Assessment of cardiac rotation by means of gyroscopic sensors
Emanuela Marcelli,Laura Cercenelli,Marco Musaico,Paola Bagnoli,Maria Laura Costantino,Roberto Fumero,Gianni Plicchi +6 more
- Vol. 35, pp 389-392
TLDR
The use of gyroscopic sensors to quantify cardiac rotation was evaluated in animals to be a sensitive index of cardiac function and demonstrated the feasibility of assessing cardiac rotation and LV twist alterations by means of gyrotopic sensors.Abstract:
During the cardiac cycle, contraction of the helically oriented myocardial fibers results in torsion, a wringing motion as the cardiac apex rotates with respect to the base about the left ventricle (LV) long axis. We evaluated in animals the use of gyroscopic sensors to quantify cardiac rotation, which was demonstrated to be a sensitive index of cardiac function. Three gyroscopes were epicardially glued at different levels along the LV long axis (apex, middle, base) to assess LV twist dynamics: angular velocity (Ang V) and angle of cardiac rotation (angle) were measured and evaluated against hemodynamic measurements of LV pressure (LVP, LVdP/dt), at baseline and after acute ischemia induced by coronary ligation. Results demonstrated the feasibility of assessing cardiac rotation and LV twist alterations by means of gyroscopic sensors, especially at apical level: compared with baseline, acute ischemia caused a significant decrease of both Angle and the maximum value of Ang V (mean variation of -37plusmn6% and -21plusmn4%, respectively); a concomitant reduction of LVdP/dtMAX (-43plusmn4%) was observed.read more
Citations
More filters
Proceedings ArticleDOI
Gyrocardiography: A new non-invasive approach in the study of mechanical motions of the heart. Concept, method and initial observations
Mojtaba Jafari Tadi,Eero Lehtonen,Mikko Pankaala,Antti Saraste,Tuija Vasankari,Mika Teräs,Tero Koivisto +6 more
TL;DR: Experimental observations by simultaneously recorded GCG and color DTI suggests that a gyroscope sensor attached to the chest is indeed capable to monitor the myocardial deformation during the cardiac cycle and therefore can provide a gateway to clinically relevant information.
Journal ArticleDOI
Cardiac mechanostructure: Using mechanics and anisotropy as inspiration for developing epicardial therapies in treating myocardial infarction.
TL;DR: In this paper, the authors focus on the mechanical and structural properties of the healthy and infarcted myocardium in order to gain insight about the environment in which biomaterial-based cardiac therapies are expected to perform and the functional deficiencies caused by MI that the therapy must address.
Journal ArticleDOI
Computational finite element model of cardiac torsion
Paola Bagnoli,Nicolò Malagutti,Dario Gastaldi,Emanuela Marcelli,Enrico Lui,Laura Cercenelli,Maria Laura Costantino,Gianni Plicchi,Roberto Fumero +8 more
TL;DR: A novel finite-element model of ventricular torsion for the analysis of the twisting behavior of the left human ventricle was developed, in order to investigate the influence of various biomechanical parameters on cardiac kinematics.
Journal ArticleDOI
The cardiac torsion as a sensitive index of heart pathology: A model study
TL;DR: This work provides further insight into physiological and pathological alterations of the cardiac torsion by means of computational analyses, combining a structural model of the two ventricles with simple lumped parameter models of both the systemic and the pulmonary circulations.
Journal ArticleDOI
A mechanical simulator of cardiac wall kinematics
Elena Cutrì,Paola Bagnoli,Emanuela Marcelli,Federico Biondi,Laura Cercenelli,Maria Laura Costantino,Gianni Plicchi,Roberto Fumero +7 more
TL;DR: The MS proved to be a useful tool to study cardiac wall kinematics and test GS reliability with a view to in vivo application and showed high accuracy in measuring both physiologic and pathologic RT velocity profiles, whereas they proved insensitive to R and L motions.
References
More filters
Journal ArticleDOI
Noninvasive myocardial strain measurement by speckle tracking echocardiography: validation against sonomicrometry and tagged magnetic resonance imaging.
Brage H. Amundsen,Thomas Helle-Valle,Thor Edvardsen,Hans Torp,Jonas Crosby,Erik Lyseggen,Asbjørn Støylen,Halfdan Ihlen,Joao A.C. Lima,Otto A. Smiseth,Stig A. Slørdahl +10 more
TL;DR: Speckle tracking echocardiography provides accurate and angle-independent measurements of LV dimensions and strains and has potential to become a clinical bedside tool for quantifying myocardial strain.
Journal ArticleDOI
Dissociation between left ventricular untwisting and filling. Accentuation by catecholamines.
Frank Rademakers,Maurice B. Buchalter,Walter J. Rogers,Elias A. Zerhouni,Myron L. Weisfeldt,James L. Weiss,Edward P. Shapiro +6 more
TL;DR: Untwisting occurs principally during isovolumic relaxation before filling and is markedly enhanced in speed and magnitude by catecholamines, which could represent an important mechanism for the release of potential energy stored in elastic elements during the systolic deformation.
Journal ArticleDOI
Measurement of midwall myocardial dynamics in intact man by radiography of surgically implanted markers.
TL;DR: Tiny radiopaque helices of pure tantalum wire were implanted by means of a simple insertor instrument into the left ventricular myocardium in 24 patients at the time of cardiac surgery and remain firmly in place and allow acquisition of a noninvasive ventriculogram at any time after surgery.
Journal ArticleDOI
Assessment of Left Ventricular Torsional Deformation by Doppler Tissue Imaging Validation Study With Tagged Magnetic Resonance Imaging
Yuichi Notomi,Randolph M. Setser,Takahiro Shiota,Maureen G. Martin-Miklovic,Joan A. Weaver,Zoran B. Popović,Hirotsugu Yamada,Neil L. Greenberg,Richard D. White,James D. Thomas +9 more
TL;DR: Testing the accuracy of a novel method that uses Doppler tissue imaging (DTI) for quantifying LV torsion in humans with tagged magnetic resonance imaging (MRI) as a reference has shown that DTI can quantifyLV torsional deformation over time.
Journal ArticleDOI
Mechanics of ventricular torsion
TL;DR: The predicted left ventricular torsion exhibits several experimentally observed features, including a peak near end systole, rapid untwisting during isovolumic relaxation, and increased twist near the apex.