L F Pavarino
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Explore the profile of L F Pavarino including associated specialties, affiliations and a list of published articles.
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11
Citations
75
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Recent Articles
1.
DellEra G, Gravellone M, Scacchi S, Franzone P, Pavarino L, Boggio E, et al.
Comput Biol Med
. 2021 Jul;
136:104661.
PMID: 34332350
Up to one-third of patients undergoing cardiac resynchronization therapy (CRT) are nonresponders. Multipoint bicathodic and cathodic-anodal left ventricle (LV) stimulations could overcome this clinical challenge, but their effectiveness remains controversial....
2.
Colli-Franzone P, Gionti V, Pavarino L, Scacchi S, Storti C
Math Biosci
. 2019 Jul;
315:108228.
PMID: 31325444
Cardiac ventricular tachycardia (VT) is a life-threatening arrhythmia consisting of a well organized structure of reentrant electrical excitation pathways. Understanding the generation and maintenance of the reentrant mechanisms, which lead...
3.
Franzone P, Pavarino L, Scacchi S
Chaos
. 2017 Oct;
27(9):093905.
PMID: 28964121
In this work, we investigate the influence of cardiac tissue deformation on re-entrant wave dynamics. We have developed a 3D strongly coupled electro-mechanical Bidomain model posed on an ideal monoventricular...
4.
Franzone P, Pavarino L, Scacchi S
Math Biosci
. 2016 Aug;
280:71-86.
PMID: 27545966
The aim of this work is to investigate, by means of numerical simulations, the influence of myocardial deformation due to muscle contraction and relaxation on the cardiac repolarization process in...
5.
Franzone P, Pavarino L, Scacchi S
Math Biosci
. 2011 Nov;
235(1):66-84.
PMID: 22067511
The assessment and understanding of cardiac excitation mechanisms is very important for the development and improvement of implantable cardiac devices, pacing protocols, and arrhythmia treatments. Previous bidomain simulation studies have...
6.
Colli-Franzone P, Pavarino L, Scacchi S
Math Biosci
. 2011 Feb;
230(2):96-114.
PMID: 21329705
Published studies have investigated the relevance of cardiac virtual electrode responses to unipolar cathodal and anodal stimulations for explaining the make and break excitation mechanisms. Most of these studies have...
7.
Scacchi S, Franzone P, Pavarino L, Taccardi B
Math Biosci
. 2009 Mar;
219(2):113-28.
PMID: 19328815
Only a limited number of studies have addressed the reliability of extracellular markers of cardiac repolarization time, such as the classical marker RT(eg) defined as the time of maximum upslope...
8.
Franzone P, Pavarino L, Scacchi S, Taccardi B
Math Biosci
. 2008 Jul;
214(1-2):140-52.
PMID: 18621065
Heterogeneities in the densities of membrane ionic currents of myocytes cause regional variations in action potential duration (APD) at various intramural depths and along the apico-basal and circumferential directions in...
9.
Franzone P, Pavarino L, Scacchi S, Taccardi B
Am J Physiol Heart Circ Physiol
. 2007 Aug;
293(5):H2771-85.
PMID: 17704290
Unipolar electrograms (EGs) and hybrid (or unorthodox or unipolar) monophasic action potentials (HMAPs) are currently the only proposed extracellular electrical recording techniques for obtaining cardiac recovery maps with high spatial...
10.
Franzone P, Pavarino L, Taccardi B
Math Biosci
. 2006 Aug;
204(1):132-65.
PMID: 16904130
It has been shown in the literature that myocytes isolated from the ventricular walls at various intramural depths have different action potential durations (APDs). When these myocytes are embedded in...