MOLLA, DAVID

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MOLLA, DAVID

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Dipartimento di Bioscienze

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Risultati 1 - 6 di 6 (tempo di esecuzione: 0.0 secondi).

Camizestrant-induced heart rate reduction is mediated via a sinoatrial node pacemaker channel mechanism

2026 A. Hall, S. El-Haou, I.C. Villar, D. Molla, M. Kwan, S. Purbrick, D. Henry, J. Kirk, G. Hawthorne, S. Canzolino, J. Harding, A. Harmer, A. Bucchi, L. Roberts, A. Pointon, S. Protze, M. Baruscotti, L. Wright

NOD-1 activation increases the spontaneous activity and the I(f) current of murine sinoatrial node cells

2024 S. Canzolino, G. Bertoli, S. Bakhouba, D. Molla, P. Benzoni, A. Barbuti, M. Baruscotti, M. Fernández-Velasco, A. Bucchi

Chinese natural compound decreases pacemaking of rabbit cardiac sinoatrial cells by targeting second messenger regulation of f-channels

2022 C. Piantoni, M. Paina, D. Molla, S. Liu, G. Bertoli, H. Jiang, Y. Wang, Y. Wang, Y. Wang, D. Difrancesco, A. Barbuti, A. Bucchi, M. Baruscotti

INVESTIGATION ON PHARMACOLOGICAL AND AGE-INDUCED MODULATIONS OF CARDIAC PEACEMAKING AND ELECTROPHYSIOLOGICAL CHARACTERIZATION OF A COMPOUND MUTATION IN THE CARDIAC SODIUM CHANNEL

2021 D. Molla

Age-related changes in cardiac autonomic modulation and heart rate variability in mice

2021 C. Piantoni, L. Carnevali, D. Molla, A. Barbuti, D. DiFrancesco, A. Bucchi, M. Baruscotti

Functional Characterization of a Novel Scn5a Mutation Associated With the Brugada Syndrome

2019 A. Frosio, D. Molla, G. Bertoli, C. Bazzini, R. Milanesi, F. Gennaro, A.F. Barbuti, A. Bucchi, L. Moretti, P. Marchese, D. DI FRANCESCO, M. Baruscotti

Titolo	Data di pubblicazione	Autori	Tipo	Abstract
Camizestrant-induced heart rate reduction is mediated via a sinoatrial node pacemaker channel mechanism	2026	Hall, AndrewEl-Haou, SaïdVillar, Inmaculada CMolla, DavidKwan, MaggiePurbrick, StuartHenry, DavidKirk, JasonHawthorne, GlenCanzolino, SerenaHarding, JoannaHarmer, AlexanderBucchi, AnnalisaRoberts, LizPointon, AmyProtze, StephanieBaruscotti, MirkoWright, Lindsay + -	Article (author)	-
NOD-1 activation increases the spontaneous activity and the I(f) current of murine sinoatrial node cells	2024	S. CanzolinoG. BertoliS. BakhoubaD. MollaP. BenzoniA. BarbutiM. BaruscottiM. Fernández-VelascoA. Bucchi + -	Article (author)	-
Chinese natural compound decreases pacemaking of rabbit cardiac sinoatrial cells by targeting second messenger regulation of f-channels	2022	Piantoni, ChiaraPaina, ManuelMolla, DavidLiu, ShengBertoli, GiorgiaJiang, HongmeiWang, YanyanWang, YiWang, YiDiFrancesco, DarioBarbuti, AndreaBucchi, AnnalisaBaruscotti, Mirko + -	Article (author)	-
INVESTIGATION ON PHARMACOLOGICAL AND AGE-INDUCED MODULATIONS OF CARDIAC PEACEMAKING AND ELECTROPHYSIOLOGICAL CHARACTERIZATION OF A COMPOUND MUTATION IN THE CARDIAC SODIUM CHANNEL	2021	MOLLA, DAVID	Doctoral Thesis	-
Age-related changes in cardiac autonomic modulation and heart rate variability in mice	2021	Piantoni C.Carnevali L.Molla D.Barbuti A.DiFrancesco D.Bucchi A.Baruscotti M. + -	Article (author)	-
Functional Characterization of a Novel Scn5a Mutation Associated With the Brugada Syndrome	2019	Anthony FrosioDavid MollaGiorgia BertoliClaudia BazziniRaffaella MilanesiFrancesca GennaroAndrea BarbutiAnnalisa BucchiLuciano MorettiProcolo MarcheseDario DiFrancescoMirko Baruscotti + -	Article (author)	-

IRIS Institutional Research Information System - AIR Archivio Istituzionale della Ricerca

MOLLA, DAVID

Camizestrant-induced heart rate reduction is mediated via a sinoatrial node pacemaker channel mechanism

NOD-1 activation increases the spontaneous activity and the I(f) current of murine sinoatrial node cells

Chinese natural compound decreases pacemaking of rabbit cardiac sinoatrial cells by targeting second messenger regulation of f-channels

INVESTIGATION ON PHARMACOLOGICAL AND AGE-INDUCED MODULATIONS OF CARDIAC PEACEMAKING AND ELECTROPHYSIOLOGICAL CHARACTERIZATION OF A COMPOUND MUTATION IN THE CARDIAC SODIUM CHANNEL

Age-related changes in cardiac autonomic modulation and heart rate variability in mice

Functional Characterization of a Novel Scn5a Mutation Associated With the Brugada Syndrome