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Myocardial force production and energy turnover in anoxia (1990)

Dietrich, D. L. L. ; Mast, F. ; Elzinga, G.

Springer

In: Experientia. 1990; 46(11-12): 1168-1172. Published 1990 Dec 01. doi: 10.1007/bf01936929.

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Publication Date: 1990-12-01

Print ISSN: 0014-4754

Topics: Biology , Medicine

Published by Springer

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The Influence of Differences Between Microchannels on Micro Reactor Performance (2005)

Delsman, E. R. ; de Croon, M. H. J. M. ; Elzinga, G. D. ; [et al.]

Wiley

In: Chemical Engineering and Technology. 2005; 28(3): 367-375. Published 2005 Mar 01. doi: 10.1002/ceat.200407126.

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Publication Date: 2005-03-01

Print ISSN: 0930-7516

Electronic ISSN: 1521-4125

Topics: Chemistry and Pharmacology , Process Engineering, Biotechnology, Nutrition Technology

Published by Wiley

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Dependency of the force-velocity relationships on Mg ATP in different types of muscle fibers from Xenopus laevis (1988)

Stienen, G.J. ; van der Laarse, W.J. ; Elzinga, G.

Cell Press

In: Biophysical Journal. 1988; 53(6): 849-855. Published 1988 Jun 01. doi: 10.1016/s0006-3495(88)83165-5.

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Publication Date: 1988-06-01

Print ISSN: 0006-3495

Electronic ISSN: 1542-0086

Topics: Biology , Physics

Published by Cell Press

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4

Electronic Resource

Myocardial force production and energy turnover in anoxia (1990)

Dietrich, D. L. L. ; Mast, F. ; Elzinga, G.

Springer

Cellular and molecular life sciences 46 (1990), S. 1168-1172

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ISSN: 1420-9071

Keywords: Energy turnover ; anoxia ; twitch force ; passive force

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary ATP turnover of isolated rabbit papillary muscles, contracting isometrically at 20°C, was determined in oxygen and during 40 min of exposure to nitrogen (anoxia). Stimulus frequency was 0.2 hertz (Hz) in oxygen and 0.2 or 1.0 Hz in nitrogen. In oxygen, ATP turnover was determined from oxygen consumption using a P/O2 ratio of 6.3. The time-dependent rate of ATP turnover in nitrogen was found from the production of lactate, and the changes in adenine nucleotides and phosphocreatine, measured in rapidly frozen preparations at different time-points during the anoxic period. A P/lactate ratio of 1.5 was used. In muscles stimulated at 0.2 Hz, twitch force dropped during the anoxic period to 33% while force production of muscles stimulated at 1.0 Hz stopped completely. However, in the latter muscles, resting force rose to 19% of the twitch force in oxygen. The rate of ATP hydrolysis in anoxia depended strongly on stimulus frequency, indicating that it is not solely determined by the glycolytic capacity. In the 0.2 Hz-stimulated muscles the decrease in energy turnover occurred in parallel with the drop in force. However, the rise in resting force in muscles stimulated at 1.0 Hz occurred when ATP turnover was close to zero. It was concluded that anoxia hardly affects the energy required for twitch force production, but that the rise of resting force measured when twitch force had disappeared occurred when the rates of cross-bridge cycling and calcium turnover were very low.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01936929

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The contribution of the sodium pump to the basal metabolism of isolated cardiac muscle: a calorimetric study

Daut, J. ; Groβ, T. ; Elzinga, G.

Amsterdam : Elsevier

Thermochimica Acta 193 (1991), S. 269-280

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ISSN: 0040-6031

Source: Elsevier Journal Backfiles on ScienceDirect 1907 - 2002

Topics: Chemistry and Pharmacology

Type of Medium: Electronic Resource

URL: http://linkinghub.elsevier.com/retrieve/pii/0040-6031(91)80188-O

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6

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ATP formation and ATP hydrolysis during fatiguing, intermittent stimulation of different types of single muscle fibres from Xenopus laevis (1993)

Nagesser, A. S. ; Laarse, W. J. ; Elzinga, G.

Springer

Journal of muscle research and cell motility 14 (1993), S. 608-618

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ISSN: 1573-2657

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary This report describes changes of the rate of ATP hydrolysis in single, intact muscle fibres during the development of fatigue induced by intermittent tetanic stimulation. High (type 3) and low (type 1) oxidative muscle fibres dissected from the iliofibularis muscle of Xenopus laevis were studied at 20°C. The rate of ATP hydrolysis was calculated during different time intervals from changes in the content of nucleotides, creatine compounds and lactate, as well as lactate efflux and oxygen uptake. During the first phase of intermittent stimulation, phosphocreatine is fully reduced while the rate of oxygen consumption increases to its maximum, the lactate content increases to a maximum level, and a small amount of IMP is formed; the rate of ATP hydrolysis in type 3 fibres is constant while force decreases, whereas the rate decreases approximately in proportion to force in type 1 fibres. After the first phase, the rate of ATP hydrolysis in type 3 fibres decreases slightly and the fibres reach a steady metabolic state in which the rates of ATP formation and hydrolysis are equal; in type 1 fibres a drastic change of the rate of ATP hydrolysis occurs and a steady metabolic state is not reached. On the basis of the time courses of the metabolic changes, it is concluded that the rate of ATP hydrolysis in type 3 fibres is reduced by acidification and/or a reduced calcium efflux from the sarcoplasmic reticulum, whereas in type 1 fibres inorganic phosphate and/or acidification inhibit the rate initially and ADP is a likely candidate to explain the drastic fall of the rate of ATP hydrolysis during late phases of fatiguing stimulation.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00141558

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7

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Maximum rate of oxygen consumption and quantitative histochemistry of succinate dehydrogenase in single muscle fibres ofXenopus laevis (1989)

Laarse, W. J. ; Diegenbach, P. C. ; Elzinga, G.

Springer

Journal of muscle research and cell motility 10 (1989), S. 221-228

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ISSN: 1573-2657

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Three different types of single living muscle fibre were dissected from the iliofibularis muscle ofXenopus laevis. The fibres were mounted in a glass chamber and their rate of oxygen consumption was determined as a function of twitch frequency at 20

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01739812

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Comparison of models used to calculate left ventricular wall force (1980)

Huisman, R. M. ; Sipkema, P. ; Westerhof, N. ; [et al.]

Springer

Medical & biological engineering & computing 18 (1980), S. 133-144

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ISSN: 1741-0444

Keywords: Ellipsoidal models ; Laplace's law ; Left ventricular wall force ; Myocardial wall stress

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology , Medicine

Notes: Abstract Myocardial wall force per area (=stress) is a major determinant of muscle function and oxygen consumption. It cannot be measured accurately but has to be derived from a mathematical model. Many models have been presented in the literature but a comparison between models has not been available. In this study angiographic data from the literature are used to calculate left ventricular wall force for normal and diseased hearts using a thin-walled spherical model, a thick-walled spherical model and six ellipsoidal models, and the results are compared. There appeared to be large differences between the stresses yielded by the models for the same cardiac geometry. The thick-walled sphere yields circumferential stresses that are approximately 25% lower than the stresses yielded by most of the ellipsoidal models. Of the ellipsoidal models the one suggested by Streeter el al. gives circumferential stresses that are 25% higher than those of the other ellipsoids. Similar differences are found for left ventricular wall stress in the longitudinal direction. However, all models correspond closely in the prediction of the deviation from normal stress in the various pathological states studied. Some of the models give information about the stress distribution over the thickness of the wall as well. We found substantial differences in this predicted stress distribution for models that employ similar assumptions. These differences plus the uncertainties with regard to the properties of the myocardial wall material, that change during the cardiac cycle, call for some scepticism concerning the calculated stress distribution over the wall. The ellipsoidal model suggested by Falsetti et al. is very simple and yields approximately the same mean wall stress values as the more complicated models that we studied. This model therefore appears to be the best choice.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02443288

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9

Electronic Resource

The apparent source resistance of heart and muscle (1978)

Westerhof, N. ; Elzinga, G.

Springer

Annals of biomedical engineering 6 (1978), S. 16-32

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ISSN: 1573-9686

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine , Technology

Notes: Abstract The pumping ability of the left ventricle may be characterized by a graph relating mean left ventricular pressure with mean left ventricular output. This graph is obtained by making the heart eject against different arterial loads, and measuring the resulting left ventricular pressure and aortic flow. For isolated heart muscle an equivalent relationship can be found. The isolated muscle is made to contract in such a fashion that it seems part of the myocardium, i.e., force relaxation precedes lengthening, just as isometric relaxation of pressure precedes left ventricular filling. Mean force should now be related with mean velocity of shortening. This relationship is a straight line and its slope has the dimension of resistance. We cannot understand such a relationship in terms of resistance in a preparation that changes its characteristics with time during contraction. A attempt is made to elucidate this relationship. The contracting muscle is represented by a time varying compliance. Calculations show that this model exhibits an almost linear relationship between mean force and mean velocity of shortening just as the muscle does. The intercept with the mean force axis (mean isometric force, $$\bar F_{ISO} $$ ) is: $$\bar F_{ISO} $$ , where F a is preload, C max is compliance of the passive muscle, T is repetition period, and C (t) is the instantaneous muscle compliance. The intercept, with the mean velocity axis $$(\bar v_{max} )$$ is: $$\bar v_{max} $$ with C min the minimum value of compliance during the contraction. It is concluded that the straight line relationship found in an isolated heart muscle between mean force and mean velocity of shortening can be explained in terms of a time varying compliance.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00000002

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10

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Interaction of heart and arterial system (1984)

Horn, G. J. ; Westerhof, N. ; Elzinga, G.

Springer

Annals of biomedical engineering 12 (1984), S. 151-162

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ISSN: 1573-9686

Keywords: Matching ; Cardiac pump function ; Power ; Apparent source resistance ; Peripheral resistance

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine , Technology

Notes: Abstract We have studied the interrelation of left ventricle and arterial system in the anesthetized open-thorax cat. The ventricle was characterized by its pump function graph, relating mean ventricular pressure ( $$\bar P_{lv}$$ ) and mean aortic flow ( $$\bar F$$ ). The pump function graph was determined by means of an artificial periphery and on a beat-to-beat basis. The periphery was characterized by relating mean aortic pressure ( $$\bar P_{ao}$$ ) and mean flow. Mean aortic and mean left ventricular pressure could be related over a wide range of values by a proportionality factor $$\bar P_{ao} = a \cdot \bar P_{lv}$$ . In a series of five separate experiments a value of a=1.72±0.14 (mean±SD) was found. This simplified relation allows direct comparison of apparent source resistance (i.e., slope of pump function graph), (Rs), and peripheral resistance (Rp). It was also found experimentally that total external power ( $$\bar \dot w$$ ) could be calculated from mean aortic pressure and mean flow as well as from mean left ventricular pressure and mean flow (thus from the pump function graph) by $$\bar \dot w = c \cdot \bar P_{ao} \cdot \bar F = c \cdot a \cdot \bar P_{lv} \cdot \bar F$$ . The value of c=1.16±0.12 (mean±SD, n=4). Maximum external power was predicted for $$R_p /R_s = \bar P_{ao} /\bar P_{lv} = a$$ . In six different cats Rp/Rs ratio in the working point (i.e., mean left ventricular pressure and mean flow when the normal periphery loaded the heart) was found to be Rp/Rs=2.63±0.92. This value could not be shown to differ from that in the point where maximal external power was found, i.e., Rp/Rs=1.81±0.08 (n=6).

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00000004

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