INSTITUTE OF PHYSIOLOGY CAS

Ischemic heart disease is the main cause of mortality worldwide. We study cardiac tolerance to injury caused by acute oxygen deprivation from the molecular level to the whole organism using animal models. Our research is focused mainly on the study of mechanisms that underlie:

high cardiac tolerance to injury early ontogeny,
increased cardiac tolerance induced by adaptation to chronic hypoxia and regular exercise training,
permanent consequences of early developmental interventions for cardiac tolerance in adulthood,
and altered cardiac tolerance associated with various pathological states.

Further we study heart development with special emphasis on the cardiac conduction system. Our current research is focused on the following projects:

elucidating cardiac conduction system formation with phylogenetic approaches,
dynamic imaging methods for cardiac conduction system,
and development of new methods for quantitative analysis of fibrous structures to study branching patterns of the coronary vessels and cardiac conduction system.

13th conference New Frontiers in Basic Cardiovascular Research

Projects

Elucidating cardiac conduction system formation with phylogenetic approach

This projects aims to obtain new insights into cardiac conduction system formation through comparative morphological and physiological approach. More

Developmental aspects of cardiac ischemic tolerance

The immature heart is highly tolerant to ischemic injury, but chronic oxygen deficit during early ontogeny may have negative consequences that persist till adulthood. We study mechanisms responsible for developmental changes of cardiac ischemic tolerance. More

Cardiac ischemic tolerance in systemic hypertension

Systemic hypertension is a major risk factor of ischemic heart disease. However, it can also stimulate mechanisms that protect the heart against acute oxygen deprivation. We study the effects of various forms of hypertension on cardiac ischemic tolerance. More

Cardioprotective mechanism of chronic hypoxia

Prolonged exposure to hypoxic environment leads to adaptation which is associated with improved cardiac tolerance to acute oxygen deprivation. We study molecular mechanisms underlying the cardioprotective effects of chronic hypoxia on various manifestations of ischemic injury. More

Publications

Ošťádal; Bohuslav - Ošťádalová; Ivana - Szárszoi; O. - Netuka; I. - Olejníčková; Veronika - Hlaváčková; Markéta . Sex-dependent effect of perinatal hypoxia on cardiac tolerance to oxygen deprivation in adults . Canadian Journal of Physiology and Pharmacology. 2021; 99(1); 1-8 . IF = 1.946 [ASEP] [ doi ]

Olejníčková; Veronika - Kočka; M. - Kvasilová; A. - Kolesová; Hana - Dziacky; A. - Gidor; T. - Gidor; L. - Šaňková; B. - Gregorovičová; Martina - Gourdie; R. G. - Sedmera; David . Gap Junctional Communication via Connexin43 between Purkinje Fibers and Working Myocytes Explains the Epicardial Activation Pattern in the Postnatal Mouse Left Ventricle . International Journal of Molecular Sciences. 2021; 22(5)); 2475 . IF = 4.556 [ASEP] [ doi ]

Honetschlagerová; Z. - Gawrys; O. - Jíchová; Š. - Škaroupková; P. - Kikerlová; S. - Vaňourková; Z. - Husková; Z. - Melenovský; V. - Kompanowska - Jezierska; E. - Sadowski; J. - Kolář; František - Novotný; J. - Hejnová; L. - Kujal; P. - Červenka; L. Renal Sympathetic Denervation Attenuates Congestive Heart Failure in Angiotensin II-Dependent Hypertension: Studies with Ren-2 Transgenic Hypertensive Rats with Aortocaval Fistula . Kidney & Blood Pressure Research. 2021; 46(1); 95-113 . IF = 1.898 [ASEP] [ doi ]

Antonucci; S. - Di Sante; M. - Tonolo; F. - Pontarollo; L. - Scalcon; V. - Alánová; Petra - Menabo; R. - Carpi; A. - Bindoli; A. - Rigobello; M. P. - Giorgio; M. - Kaludercic; N. - Di Lisa; F. The Determining Role of Mitochondrial Reactive Oxygen Species Generation and Monoamine Oxidase Activity in Doxorubicin-Induced Cardiotoxicity . Antioxidants & Redox Signaling. 2021; 34(7); 531-550 . IF = 7.040 [ASEP] [ doi ]

Tibenská; V. - Benešová; A. - Vebr; P. - Liptáková; A. - Hejnová; L. - Elsnicová; B. - Drahota; Zdeněk - Horníková; D. - Galatík; F. - Kolář; D. - Vybíral; S. - Alánová; Petra - Novotný; J. - Kolář; František - Nováková; Olga - Žurmanová; J.M. Gradual cold acclimation induces cardioprotection without affecting adrenergic beta-receptor-mediated adenylyl cyclase signaling . Journal of Applied Physiology. 2020; 128(4); 1023-1032 . IF = 3.044 [ASEP] [ doi ]

	RNDr. Jan Neckář, Ph.D. Head of the Laboratory
	Prof. RNDr. František Kolář, CSc. Deputy Head of the Laboratory
	Prof. MUDr. David Sedmera, DSc. Senior Researcher
	Prof. MUDr. Bohuslav Ošťádal, DrSc. Senior Researcher
	MUDr. Ivana Ošťádalová, CSc. Senior Researcher
	Ing. František Papoušek, CSc. Senior Researcher
	RNDr. Markéta Hlaváčková, Ph.D. Senior Researcher
	Olga Nováková Senior Researcher
	RNDr. Petra Alánová, Ph.D. Postdoctoral Fellow
	RNDr. Martina Gregorovičová, Ph.D. Postdoctoral Fellow
	Mgr. Petra Kolesová, Ph.D. Postdoctoral Fellow
	MVDr. Veronika Olejníčková, Ph.D. Postdoctoral Fellow
	RNDr. Kristýna Holzerová, Ph.D. Postdoctoral Fellow
	Mgr. Jaroslav Hrdlička PhD Student
	Mgr. Daniel Benák PhD Student
	MUDr. Dmytro Semenovykh PhD Student
	Ing. Šárka Škutová PhD Student
	MUDr. Tereza Vavříková PhD Student
	Petr Kordač Research Assistant
	Ing. Miloslava Marková Technician
	Milana Pešková Technician
	Jarmila Svatůňková Technician