Calcium metabolism and depressed contractility in isolated human and porcine heart muscle
| Autor: | V. J. A. Schouten, G. L. van Rijk-Zwikker, G. P. H. Swier, J. J. Schipperheyn |
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| Rok vydání: | 1990 |
| Předmět: |
Cardiac Complexes
Premature medicine.medical_specialty Contraction (grammar) Swine Physiology chemistry.chemical_element In Vitro Techniques Calcium Contractility Physiology (medical) Internal medicine medicine Animals Homeostasis Humans Calcium metabolism Myocardium Endoplasmic reticulum Osmolar Concentration Isoproterenol Heart Myocardial Contraction Electrophysiology Endocrinology chemistry Ventricular pressure Cardiology and Cardiovascular Medicine Reticulum |
| Zdroj: | Basic Research in Cardiology. 85:563-574 |
| ISSN: | 1435-1803 0300-8428 |
| DOI: | 10.1007/bf01907891 |
| Popis: | Contractility is often depressed in isolated heart muscle. To analyze this phenomenon, we measured the derivative of left ventricular pressure (dP/dt) in intact and in isolated, blood perfused pig hearts, and peak force (F) or stress (F/mm2) in ventricular trabeculae of man and pig. When the heart was in the steady state at a priming frequency of 2 Hz an extrasystolic interval of 0.3 s was interposed, followed by four postextrasystolic intervals of 0.8 s. In the case of isolated trabeculae the priming frequency was 0.2 Hz, the extra interval 0.4 s, and the post-extrasystolic intervals were 5 s. The exponential decay of potentiation is characterized by the constant D: a low value of D indicates a rapid decay of potentiation. DP/dt was about 1000 mm Hg/s in the intact hearts, but within 1 h after isolation dP/dt decreased to about 700 mm Hg/s, and this was associated with a decrease in D from 0.63 to 0.40. Developed stress in the isolated trabeculae was about 2 mN/mm2 and D was about 0.20 under standard, in vitro conditions (a.o. 1.5 mM Ca2+. 0.2 Hz stimulus frequency). This stress is only 10% of the calculated stress in the intact heart. An increase of priming frequency, or of [Ca2+], or addition of 30 nM isoproterenol to the perfusate caused a marked increase in F and D. Properties of human and porcine trabeculae were quantitatively similar. The strong correlation between dP/dt, or F, and D suggests a causal relationship. This is consistent with the current model of e-c coupling in heart muscle, in which the activity of the Ca2+ pump of the sarcoplasmic reticulum determines the decay of potentiation and the amount of releasable Ca2+ in the reticulum determines force of contraction. Since isoproterenol stimulates the Ca2+ pump in the reticulum, the increase in D and F induced by this drug is consistent with the model. We conclude, that the decreased dP/dt, F, and D in isolated preparations was due to impaired sarcoplasmic reticulum function. The role of this phenomenon in the stunned heart syndrome, species differences and possible causes are discussed. |
| Databáze: | OpenAIRE |
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