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Contraction kinetics of isolated human myometrium during menstrual cycle and pregnancy (2000)

Tchirikov, Mikhail ; Peiper, Ulrich ; Schröder, Hobe J.

Oxford, UK : Blackwell Publishing Ltd

BJOG 107 (2000), S. 0

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ISSN: 1471-0528

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Medicine

Notes: Objective To investigate the interaction between actin and myosin in the myometrium by studying the contraction kinetics of isolated samples of human myometrium.Design Experimental and observational cross-sectional study.Setting Eppendorf University Hospital, Hamburg.Samples Myometrium samples were taken from women in the follicular phase (n= 6) or luteal phase (n= 6) of the menstrual cycle and during pregnancy at term (n= 25).Methods The frequency, extent and rate of force development were determined in spontaneously active myometrial preparations. From a resting force of 2 mN, sustained tonic contractions were induced by K+-depolarisation (124 mM), or by protein kinase C activation (19.9 μM indolactam). The steady force was reversibly interrupted by rapid length changes (100 Hz sinus vibrations lasting 1 s, 5% of muscle length). Extent (steady plateau), as well as rate of force increase after cessation of vibrations, were derived from bi-exponential functions fitted to the time course of force recovery.Results Frequency of spontaneous contractions was higher in the follicular phase [mean (SD) 18.3 contractions/hour (1.0)] than in the luteal phase [13.4 contractions/hour (8.1)] or in pregnancy at term [8.8 contractions/hour (7.6)]. During indolactam treatment, steady force in pregnancy at term was significantly increased [8.8 mN (4.0)], compared with the follicular phase [3.7 mN (0.9)]. Force recovery was distinctly slower in pregnancy at term during indolactam treatment [time constant 99.2 s (57.9); P 〈 0.005] than during K+-depolarisation [time constant 29.1 s (5.9)], whereas in the follicular phase the rate of force recovery was faster with indolactam [16.8 s (7.1)] than with K+ depolarisation [24.4 s (5.9); P 〈 0.005].Conclusions The responses of human myometrium to contraction stimuli differ according to the reproductive state. Membrane depolarisation causes similar responses in all myometrial strips. In contrast, near term stimulation of protein kinase C generates a large tonic force and slow contraction kinetics, whereas early in the menstrual cycle contraction kinetics are fast.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1471-0528.2000.tb11580.x

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Alterations in smooth muscle contraction kinetics during tonic activation (1983)

Peiper, Ulrich

Springer

Pflügers Archiv 399 (1983), S. 203-207

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ISSN: 1432-2013

Keywords: Rat tracheal smooth muscle ; Contraction kinetics ; Vibration ; Efficiency of force generation

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The kinetics of actin myosin interaction were studied in rat tracheal smooth muscle by analyzing the time course of post-vibration tension recovery. Longitudinal vibration (100 Hz sinus; 8% of the muscle length) of the contracted preparation (electrical field stimulation 30 Hz, 0.3 ms or 0.1 mM acetylcholine treatment) inhibits the process of force generation. The tension recovery after cessation of vibration follows a double exponential function with an initial fast and a subsequent slow component (the time constants averaged 1.17±0.10 s and 7.0±0.32 s (n=60), respectively). Changes in the amplitude of vibration, the stimulation strength, or the extent of resting tension affect the amplitude without altering the time constants of tension recovery. These experimental conditions influence rather the number than the kinetics of acting cross-bridges. An extension of the pre-vibration stimulation period from 15s to 16 min as well as a reduction in temperature from 37°C to 25°C hardly affects the extent of force development. However, the time constants of both the fast and the slow component of tension recovery were increased by up to a factor of about 7. These experimental results indicate an effect on the kinetics of actin myosin interaction.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00656715

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Force-velocity relations of the portal vein of hyperthyroid rats (1977)

Peiper, Ulrich

Springer

Pflügers Archiv 372 (1977), S. 23-27

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ISSN: 1432-2013

Keywords: Vascular smooth muscle ; Portal vein ; Contractility ; Thyroxine ; Hyperthyroidism

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The effect of thyroxine on the elementary process of contraction of vascular smooth muscle was tested in 38 hyperthyroid and in 38 control rats. Hyperthyroidism was induced by i.p. injections of triiodthyronine or 1-thyroxine for 2 weeks. By means of afterloaded isotonic contractions of the tetanized portal vein force velocity relations were calculated. There was a slight increase in both the extrapolated velocity of shortening at zero load [from 0.93±0.04 ML/s (control rats) to 1.03±0.04 ML/s (hyperthyroid rats;P〈0.05)], and the peak force generation (from 14.8±0.4 mN to 16.1±0.4 mN;P〈0.005). The maximum of mechanical power development at a distinct extent of afterload was augmented from 1.35±0.06 μW/ML to 1.68±0.06 μW/ML (P〈0.0005). The influence of thyroxine on the elementary process of contraction in vascular smooth muscle is discussed in connection with the much stronger effect of hyperthyroidism on cardiac muscle contraction.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00582202

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Barium ions reduce contraction kinetics in rat tracheal smooth muscle (1987)

Peiper, Ulrich ; Zobel, Kuno ; Bode, D. ; [et al.]

Springer

Pflügers Archiv 408 (1987), S. 373-378

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ISSN: 1432-2013

Keywords: Smooth muscle ; Rat trachea ; Barium ; Contraction kinetics

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract In isolated rat tracheal smooth muscle, contraction was induced by electrical field stimulation (= EL; frequency = 30 Hz; pulse duration = 0.17 ms), 10 μmol/l acetylcholine (= ACh), potassium depolarization (137 mmol/l K), or by 10 mmol/l barium (= BA). Contraction kinetics were studied by analyzing tension recovery after cessation of a 1.8s length vibration (100 Hz sinusoida; amplitude = 6% of the muscle length). The contraction speed was high during EL as can be seen from the short time constant of post-vibration tension recovery (τ=5.90±0.14 s) found 30 s after onset of stimulation. The time constants of tension recovery during long-term (50 min) activation averaged 12.88±0.32 s (K) and 13.24±0.17 s (ACh) when the vibration was stopped 8–45 min after onset of activation. As both of these stimuli act mainly via cholinergic receptors, similar down-regulated contraction kinetics occur under steady-state conditions of tonic contraction. However, during barium activation steady-state conditions need a 45 min agonist incubation, and the time constant of post-vibration tension recovery was extended to 34.05±2.21 s. Thus, calcium may be replaced by barium in the force generation process but it produces slower cycling of cross-bridges.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00581131

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Re-acceleration of the down-regulated contraction kinetics in the rat tracheal smooth muscle (1987)

Lobnig-Meier, Brigitte M. ; Peiper, Ulrich ; Zimmermann, Andrea

Springer

Pflügers Archiv 410 (1987), S. 413-419

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ISSN: 1432-2013

Keywords: Trachea ; Smooth muscle ; Contraction kinetics ; Acetylcholine ; Serotonin

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The contraction kinetics of smooth muscle show a down-regulation after the transient rise found during sustained contraction. We tried to find out therefore if the contraction kinetics of rat tracheal smooth muscle can be re-accelerated during sustained activation. A 2 s length vibration (100 Hz sinusoidal; amplitude=6% of the muscle length) produces an immediate fall in the force developed by the activated muscle. A biexponential function was fitted to the force recovery. The reciprocal of the time constant,t 2, describing the slow component of force recovery, reflects the kinetics of contraction. The contraction kinetics reach their highest levels (t 2=4.9±0.1 s,n=166) about 30 s after the onset of electrical field stimulation. Three experimental groups were activated by either 10 μM serotonin (5-HT), 100 μM acetylcholine (ACh), or by 2 μM ACh for 50 min. Approximately 10 vibrations were applied to each preparation after an 8 min activation in order to observe stabilized down-regulated contraction kinetics.t 2 values were calculated from the force recovery after vibration and averaged 11.2±0.2 s (n=141), 11.5±0.2 s (n=137), and 11.1±0.3 s (n=84), respectively. After 50 min of continuous chemical activation, the preparation was stimulated additionally by the neurogenic release of acetylcholine. Thet 2 of post-vibration force recovery, as measured after 30 s of neural activation, showed no change in the specimens basically activated by 100 μM ACh (11.0±0.4 s,n=51). A decline int 2, indicating accelerated kinetics, was observed in the groups which had been stimulated by 10 μM 5-HT (5.9±0.2 s,n=51) and 2 μM ACh (5.6±0.2 s,n=47). The re-accelerating effect of the second stimulus could be reproduced recurrently. The down-regulated contraction kinetics can be re-accelerated either by activating another receptor type in addition to the one already maximally stimulated or by increasing the stimulus mediated by one of the receptor types from half maximal to maximal strength. However, this is only possible if the additional activation is strong enough, as indicated by an increase in active force. It could be demonstrated that the slowing of the cross-bridge cycling rate is the result of a regulatory process and not the result of substrate deficiencies or refractoriness in the regulatory of contractile proteins.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00586519

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Die efferenten Splanchnicusentladungen und ihre zeitliche Beziehung zu Blutdruckänderungen und Phrenicuspotentialen (1961)

Peiper, Ulrich ; Hauck, Günther

Springer

Pflügers Archiv 273 (1961), S. 335-344

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ISSN: 1432-2013

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00362335

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7

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Der Einfluß zeitlicher und räumlicher Summation auf den Kontraktionsablauf der Gefäßmuskulatur in situ (1965)

Peiper, Ulrich ; Ohnhaus, Edgar E.

Springer

Pflügers Archiv 286 (1965), S. 285-296

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ISSN: 1432-2013

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Description / Table of Contents: Zusammenfassung An Katzen wurden die hinteren Extremitäten volumenkonstant mit Eigenblut durchströmt. Der Verlauf der Perfusionsdruckkurve bei Grenzstrangreizung in Höhe von L 3 erlaubt quantitative Aussagen über den Kontraktionsablauf der Gefäßmuskulatur in situ. Die Höhe der Perfusionsdruckänderung (ΔPD) wird als Maß für die Stärke der Vasoconstriction und, bis zur Sättigungskonzentration, als Maß für die Höhe der Transmitterkonzentration am Endorgan angesehen. Die maximale Anstiegsgeschwindigkeit des Perfusionsdruckes (max. ΔPD/sec) erfaßt zumindest richtungsmäßig die Kontraktionsgeschwindigkeit der Gefäßmuskulatur in situ und die Aufbaugeschwindigkeit der Transmitterkonzentration in unmittelbarer Nähe der Gefäßmuskulatur. 1. Bei Zunahme der Reizfrequenz zwischen 2 und 100 Hz kommt es durch Erhöhung der Endkonzentration und der Aufbaugeschwindigkeit des Transmitters zur zeitlichen Summation des vasoconstrictorischen Reizerfolges. Maximale Vasoconstriction und damit Sättigungskonzentration sind bereits bei 10–20 Hz erreicht. Die Freisetzungsgeschwindigkeit der Überträgersubstanz wird dagegen bis 100 Hz beeinflußt. 2. Eine weitere Erhöhung der Reizfrequenz zwischen 100 und 1000 Hz hemmt die Erregungsleitung nach dem Wedensky-Typ. Durch Ausfall efferenter Leitungswege entsteht die räumliche Summation des vasoconstrictorischen Reizerfolges. 3. Die Änderung der elektrischen Reizspannung variiert die Anzahl der erregten, efferenten Fasern und führt zu einer direkt vergleichbaren räumlichen Summation. Die Ergebnisse lassen erkennen, daß eine postganglionäre Faser ein umgrenztes Gefäßgebiet versorgt. Hierdurch ist es möglich, nur Teile der perfundierten Strombahn in die Vasoconstriction einzubeziehen. Bei der räumlichen Summation werden Endkonzentration und Aufbaugeschwindigkeit des Transmitters im aktivierten Endorgan nicht verändert. Eine nennenswerte Konvergenz der efferenten postganglionären vasoconstrictorischen Leitungsbahn kann für die Gefäßmuskulatur nicht gefunden werden.

Notes: Summary Both hind legs of anaesthetized cats were perfused with the animals own blood at constant flow. From the perfusion-pressure curves, registrated under stimulating the sympathetic trunc at L 3, quantitative statements on the dynamics of the vascular muscles in situ could be made. The observed variations of the perfusion-pressure (ΔPD) were regarded as beeing representative for the strength of vasoconstriction, and for the concentration of transmitter until saturation within the muscular end-organs. The maximum velocity of the rise of the perfusion-pressure (max. ΔPD/sec) was taken as a relative measure for both, velocity of muscular contraction, and velocity of the accumulation of the transmitter concentration in the nearest neighbourhood of the vascular muscles. 1. Within a range of 2 to 100 stimuli per second a temporary summation of the vasoconstrictory effect could be observed: When the frequency was raised the final concentration of the transmitter, and the velocity of its accumulation increased. The maximum of contraction, and therefore the saturation point of the concentration of the transmitter was reached at frequencies between 10 and 20 per second while the velocity could be raised up to a frequency of 100 per second. 2. Stimulation with frequencies between 100 and 1000 per second lead to an inhibition of the nervous conduction (Wedensky-type): A spatial summation of the vasoconstrictory effect appears as a sequence of an increasing blockade of efferent nerve fibres. 3. Using different voltages of stimulation a similar effect could be shown consisting in a shortage of conducting nerve fibres at low voltage. These results lead to the conclusion that a postganglionic fibre may supply a circumscript vascular area only, whereby the possibility is given to use singular districts of the perfused vessel area for vasoconstriction. By the spatial summation no changes were produced within the activated end-organ in regard to the final concentration and the velocity of accumulation of the transmitter substance. An essential convergence of the efferent postganglionic vasoconstrictor nerve fibres on the vascular muscles could not be found either.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00365918

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Die Bedeutung der Kraft der Kontraktion für die diastolische Ansaugung des isolierten Froschherzens (1961)

Peiper, Ulrich ; Weigand, Karl Heinrich

Springer

Pflügers Archiv 273 (1961), S. 407-409

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ISSN: 1432-2013

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00362342

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Relaxation of coronary arteries by electro-mechanical decoupling or adrenergic stimulation (1972)

Peiper, Ulrich ; Schmidt, Erich

Springer

Pflügers Archiv 337 (1972), S. 107-117

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ISSN: 1432-2013

Keywords: Coronary Artery ; Depolarization ; Noradrenaline ; Verapamil ; Isoproterenol ; Adrenergic Beta-Receptors

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The contractions of isolated spiral strips from bovine and porcine coronary arteries were induced by potassium depolarization. The preparations were relaxed by verapamil and/or isoproterenol. 1. The non-activated preparation of bovine artery has a basal tone corresponding to 15±1.7% of the maximum of developed tension. 2. The contraction induced by potassium depolarization was largely prevented by 11.3 μg/ml of verapamil. In this preparation, however, 2.8 μg/ml of noradrenaline relaxed the depolarized spiral strip to the same degree as compared with values of the polarized arteries. 3. The depolarized, activated preparation is more relaxed by inhibition of calcium ion influx (verapamil) than by activation of beta-adrenergic receptors (isoproterenol). The relaxing effect takes place in the following order: noradrenaline (51.7%) 〈 isoproterenol (86.1%) 〈 verapamil (100%). 4. The polarized, non-activated preparation is more relaxed by stimulation of beta-adrenergic receptors (isoproterenol) than by inhibition of calcium ion influx (verapamil). The relaxing effect takes place in the following order: verapamil (64.4%) 〈 noradrenaline (85.3%) 〈 isoproterenol (100%). 5. The degree of maximal relaxation after verapamil, noradrenaline, or isoproterenol increases in the polarized preparation with augmented fibre stretch.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00587834

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Einfluß der Vordehnung auf die Dynamik der glatten Gefäßmuskulatur (1972)

Schmidt, Erich ; Peiper, Ulrich

Springer

Pflügers Archiv 333 (1972), S. 314-325

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ISSN: 1432-2013

Keywords: Vascular Smooth Muscle ; Initial Stretch ; Noradrenaline ; Angiotension ; Potassium Depolarization

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1. Isolated helical strips of rat aorta, splenic artery (hog) and coronary artery (hog and cattle) were stretched with various intensities. Determinations of the influence of this passive stretch on the efficiency of activation by potassium-depolarization, noradrenaline or angiotensin showed an increase of the induced contraction amplitude up to an initial stretch of more than 8000 dynes per mm2 sectional area (Fig.2). 2. An augmentation of the initial stretch possibly depolarized the membrane and this caused a shift of the dose-response curve of potassium to lower concentrations (Fig.4). 3. The contraction amplitude of aorta or splenic artery induced by noradrenaline amounted to an average of 120% or of 111% of the value after potassium depolarization (Fig.1). The influence of the initial stretch on this relationship is only slight (Fig.3). The most effective concentration of noradrenaline was about 5 μg/ml; it was not possible to show a correlation between the initial stretch and the maximal effective dose of noradrenaline. 4. Noradrenaline distinctly relaxed the coronary arteries. The maximal effective dose for this reaction was also about 5 μg/ml (Fig.1). 5. Angiotensin caused a contraction in all investigated preparations (Fig.1) and became more effective after an increase of the initial stretch (Fig.3). There was no relationship between the degree of stretch and the most effective dose of angiotensin. 6. The amplitude of contraction was mainly influenced by the initial stretch and independent of the kind of activation (depolarization, noradrenaline, angiotensin). Therefore the stretch obviously affected later steps within the activation mechanism. This could be ascribed, for example, to an increase of the number of interaction sites of the contractile proteins caused by increased stretch.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00586211

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