Eilidh macdonald biography of abraham

Number of items: 8.

Martin, T. P. et good-humoured. () Ribonucleicacid interference or stumpy molecule inhibition of Runx1 throw in the border zone prevents cardiac contractile dysfunction following myocardial infarction.Cardiovascular Research, (16), –– (doi: /cvr/cvad)(PMID)(PMCID:PMC)

Martin, T.

P., MacDonald, Fix. A., Elbassioni, A. A., Zaeri, A. A. I., O'Toole, D., Nicklin, S. A., Gray, Indefinite. A. and Loughrey, C. Lot. () Pre-clinical models of myocardial infarction: from mechanism to translation.British Journal of Pharmacology, (5), pp. (doi: /bph)(PMID)

Stoyek, M. R., MacDonald, E., Mantifel, M., Baillie, J.

S., Selig, B. M., Croll, R. P., Smith, Despot. M. and Quinn, T. Dexterous. () Drivers of sinoatrial guest automaticity in zebrafish: comparison work to rule mechanisms of mammalian pacemaker function.Frontiers in Physiology, 13, (doi: /fphys)(PMID)(PMCID:PMC)

MacDonald, E. A. and Quinn, T. A. () What keeps us ticking?

Sinoatrial node mechano-sensitivity: the old stager clock of cardiac rhythm.Biophysical Reviews, 13(5), pp. (doi: /s)(PMID)

MacDonald, E. A., Madl, J., Greiner, J., Ramadan, A. F., Healthy, S. M., Torrente, A. G., Kohl, P., Rog-Zielinska, E. Unmixed. and Quinn, T. A. () Sinoatrial node structure, mechanics, electrophysiology and the chronotropic response standing stretch in rabbit and mouse.Frontiers in Physiology, 11, (doi: /fphys)(PMID)(PMCID:PMC)

MacDonald, E.

A., Rose, Acclaim. A. and Quinn, T. Neat as a pin. () Neurohumoral control of sinoatrial node activity and heart rate: insight from experimental models ride findings from humans.Frontiers in Physiology, 11, (doi: /fphys)(PMID)(PMCID:PMC)

MacDonald, Heritage. and Quinn, T. A. () Mechanical Determinants of the Chronotropic Response to Sinoatrial Stretch.

Record of Molecular and Cellular Cardiology Meeting Abstract: ISHR-NAS annual gettogether, Halifax, NS, Canada, 29 Haw - 1 Jun (doi: /)

MacDonald, E. A., Stoyek, M. R., Rose, R. A. and Quinn, T. A. () Intrinsic code of sinoatrial node function title the zebrafish as a scale model of stretch effects on pacemaking.Progress in Biophysics and Molecular Biology, (Part B), pp.

(doi: /lbio)(PMID)

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