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Force generation in experimental tetanus, KCl contracture, and oxygen and glucose deficiency contracture in mammalian myocardium (1983)

Holubarsch, Ch.

Springer

Pflügers Archiv 396 (1983), S. 277-284

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ISSN: 1432-2013

Keywords: Myocardium ; Hypoxia ; Contracture ; Experimental Tetanus ; Cross-bridges

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract We studied the amount and time-course of tension recovery after quick releases (0.25 mm) during experimental tetanus, potassium chloride contracture (KCl), hypoxic contracture (H) as well as joint glucose and oxygen deficiency contracture (HG) in left ventricular papillary muscles of rat and right ventricular papillary muscles of cat myocardium. Both in experimental tetanus and KCl contracture, the tension recovery was finished within 200 ms after the release, and was 77% and 60% of initial tension fall, respectively.. The Q10 value for the time constant of half of recovery tension was 2.5, and the time constants differed by the same factor between rat and cat myocardium. In H or HG contracture, we never could find any significant tension recovery process during the first 200 ms after a release, neither in late nor in very early stages of contracture tension generation. However, when longer observation periods (90s) after a release were monitored, a slow tension recovery was observed which was at least 18% of initial tension fall. This data indicates fast, calcium-mediated cross-bridge cycling in experimental tetanus and KCl contracture. In contrast, the very slow tension recovery in H and HG contracture, which is consistent with recent myothermal data, can be interpreted as rigorlike cross-bridges with a very slow cycling rate, a long time of attachment in force-generating position and low energy turnover.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01063931

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Energetic changes of myocardium as an adaptation to chronic hemodynamic overload and thyroid gland activity (1985)

Holubarsch, Ch. ; Litten, R. Z. ; Mulieri, L. A. ; [et al.]

Springer

Basic research in cardiology 80 (1985), S. 582-593

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ISSN: 1435-1803

Keywords: myothermal economy ; cross-bridge cycling ; hypothyroidism ; pressure-overload hypertrophy ; myosin isocnzymes ; cardiac energetics ; cardiac adaptation

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Pressure-overload cardiac hypertrophy and hypothyroidism were shown to be associated with a decreased maximum shortening velocity of the myocardium. To investigate the nature of these intrinsic myocardial changes, we studied the energetic consequences in left ventricular papillary muscles of the rat by using standard HILL planar vacuum-deposited antimony-bismuth thermopiles. To evaluate the economy of isometric force generation and maintenance, we analyzed the ratio of liberated heat and developed tension or developed tension-time integral in twitches and experimentally induced tetanic contractions. Hypothyroidism was induced by treatment with propylthiouracil (PTU), and hypertension by operative narrowing of the left renal artery of rats according to Goldblatt (GOP). In the myocardium of hypothyroid as well as hypertensive rats, initial heat per peak twitch tension and total activity-related heat per tension-time integral were significantly reduced compared to controls. In tetanic contractions, total activity-related heat per tension-time integral was also decreased in PTU and GOP myocardium when compared to controls. Thus, the economy of force generation and maintenance is improved in the myocardium of the experimental animals. The data is interpreted in terms of altered cross-bridge cycling rates which are shown to be associated with changes in the myosin isoenzyme pattern. The intrinsic changes of the myocardium due to pressure-overload hypertrophy and hypothyroidism are considered to be adaptive rather than pathologic reactions of the myocardium.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01907857

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